射频和高压瞬变负离子源中热电偶信号的噪声抑制技术

H. Tyagi, K. Patel, R. Yadav, H. Mistri, A. Gahlaut, K. Pandya, M. Bhuyan, M. Singh, M. Bandyopadhyay, A. Chakraborty
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引用次数: 0

摘要

负离子基电感耦合等离子体源在高射频功率和高压环境下工作,用于等离子体产生和光束传输。由于等离子体功率耦合动力学,射频功率失配会产生较大的反射场,影响所有诊断信号,降低信噪比。除了射频干扰外,在波束提取和加速过程中,由于高压系统的高dV/dt快速切换,诊断信号在高压击穿期间也容易受到干扰。故障会产生高压瞬变,进而干扰整个信号参考系统。这样的操作环境对来自热电偶传感器的低压信号的前端电子设计提出了挑战,热电偶传感器是此类源中最重要的诊断元件。表面安装的热电偶参考浮动电位从高压瞬态和射频噪声中拾取噪声。因此,需要一个信号调节系统来抑制噪声源,为采集和控制系统提供干净的信号。这种信号调理需要特定的射频滤波器和PCB设计。还需要特别注意屏蔽和接地,以帮助减少噪声干扰。目前的工作讨论了测量的改进,为前端电子热电偶使用的罗宾射频负离子源试验台。该源工作在1mhz射频和高压电源额定为11kv 35a提取和35kv 15a加速。观察到90 V/m量级的失配场。从现场到呈现层的整个信号链,并给出解决噪声干扰的措施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Noise mitigation techniques in thermocouple signals in negative ion sources with RF and HV transients
Negative ion-based inductively coupled plasma sources operate in a high RF power and HV environment for plasma production and beam transport. Due to plasma power coupling dynamics, RF power mismatch causes large reflected fields which affect all the diagnostic signals, degrading the signal to noise ratio. In addition to RF disturbances, during the beam extraction and acceleration, the diagnostic signals are also prone to suffer during HV breakdowns due to high dV/dt fast switching of the HV system. The breakdowns cause the generation of HV transients which in turn disturb the entire signal referencing system. Such an operational environment poses challenges for front end electronics design for low voltage signals like the one from thermocouple sensors, which are some of the most important diagnostic elements in such sources. The surface-mounted thermocouples referenced to floating potential pick up noise from HV transients and RF noise. A signal conditioning system is therefore needed to arrest the noise sources and provide clean signals for the acquisition and control system. Such signal conditioning needs specific RF filters and PCB design. Special attention is also required for shielding and grounding to help reduce noise interference. The present work discusses the measurements in light of the improvements made to the front end electronics for the thermocouples used on the ROBIN RF-based negative ion source test bed. The source operates at 1 MHz RF and with HV power supplies rated at 11 kV 35 A for extraction and 35 kV 15 A for acceleration. Mismatch fields of the order of 90 V/m have been observed. The overall signal chain from field to presentation layer shall be presented with the measures undertaken to solve the noise interference.
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