Lower Hybrid Current Drive on Alcator C-Mod: System Design, Implementation, Protection, Calibration and Performance

2007 IEEE 22nd Symposium on Fusion Engineering Pub Date : 2006-10-31 DOI:10.1109/FUSION.2007.4337922

D. Terry, W. Burke, A. Kanojia, P. MacGibbon, D. Johnson, R. Parker, R. Vieira, G. Wallace, W. Beck, P. Koert, J. Irby, J. Wilson, N. Greenough, D. Gwinn

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引用次数: 5

Abstract

A 4.6 GHz 3 MW lower hybrid current drive (LHCD) system has been designed and implemented on Alcator C-Mod. This RF system will allow C-Mod to access advanced tokamak regimes: high confinement, high betan, and high bootstrap fraction and extend them to quasi-steady-state conditions. The LHCD system includes twelve 250 kW klystrons. Power from each klystron is split eight ways using a complex system of waveguides to drive a 96-window coupler array. The amplitude and relative phasing of each klystron is controlled by a computer-based system using I-Q vector modulators and is monitored by I-Q detectors to control the npar spectrum applied to the plasma. Calibration is accomplished using a network analyzer in conjunction with software programs to generate two-dimensional lookup tables that allow compensation for system non-linearities. Forward and reflected powers are monitored to protect the klystrons, waveguides and coupler array from arcing. During the 2006 experimental campaign, nearly 1 MA of current was driven into Alcator C-Mod plasma using 800 kW of coupled RF power.

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变频器C-Mod的低混合电流驱动:系统设计，实现，保护，校准和性能

在Alcator C-Mod上设计并实现了一个4.6 GHz 3mw低混合电流驱动(LHCD)系统。该射频系统将允许C-Mod获得先进的托卡马克系统:高约束、高贝塔和高自举分数，并将它们扩展到准稳态条件。LHCD系统包括12个250千瓦速调管。每个速调管的功率通过一个复杂的波导系统来驱动一个96窗口耦合器阵列，被分成8种方式。每个速调管的幅度和相对相位由一个基于计算机的系统控制，该系统使用I-Q矢量调制器，并由I-Q探测器监测，以控制应用于等离子体的非par频谱。校准是使用网络分析仪结合软件程序生成二维查找表，允许补偿系统非线性完成。正向和反射功率监测，以保护速调管，波导和耦合器阵列电弧。在2006年的实验活动中，使用800千瓦的耦合射频功率将近1毫安的电流驱动到Alcator C-Mod等离子体中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 IEEE 22nd Symposium on Fusion Engineering

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