The application of distribute control system (DCS) in poloidal field power supply of HT-7 superconducting tokamak device is described.
介绍了集散控制系统在世界第四大超导托卡马克装置极向场控制系统中的应用。
A power supply system for diagnostic neutral beam on the HT-7 Tokamak was developed. Its logic control system based on S7-300 PLC was described.
文章介绍HT - 7托卡马克实验装置上的中性束诊断电源系统的组成、结构,以及基于S7 - 300PLC的逻辑控制系统。
The LHW output power modes can be adjusted to meet the experimental requirements in HT-7 tokamak by controlling the PIN switches in the input power sub-system.
实验中通过前级PIN开关控制不同的低杂波输出模式,满足了HT-7装置相应实验对低杂波的要求。
According to the operation requirements of HT-7 superconducting tokamak, a safety system for the vacuum operation is built to cover all the experimental phases.
根据HT - 7托卡马克装置所处不同阶段对真空的要求不同,介绍该安全保护系统如何构建以满足不同阶段的需要。
In the experiment, samples of pure tungsten were placed in the scrape-off layer of HT-7 tokamak to study the interaction between plasma and the surface of samples.
实验中将纯钨样品放入HT - 7托卡马克的刮削层中,以研究等离子体与纯钨表面的作用。
The ratio of the bootstrap current to the total plasma current is analyzed before and after wall conditionings of the ohmically heated discharges in the HT-7 tokamak.
分析了HT-7托卡马克壁处理前后欧姆放电时的自举电流占总等离子体电流比例的变化情况。
The design of the high power millimeter wave transmission line for Electron Cyclotron Resonance Heating (ECRH) system on the HT 7 Tokamak was given.
给出了用于HT 7超导托卡马克聚变实验装置的电子回旋共振加热(ECRH)系统大功率毫米波传输线的设计。
The design of the high power millimeter wave transmission line for Electron Cyclotron Resonance Heating (ECRH) system on the HT 7 Tokamak was given.
给出了用于HT 7超导托卡马克聚变实验装置的电子回旋共振加热(ECRH)系统大功率毫米波传输线的设计。
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