仪表，数据采集和控制在4.5 k和80 k的sst-1机器冷表面的温度测量

Advances in cryogenic engineering Pub Date : 2008-03-27 DOI:10.1063/1.2908698

P. Panchal, D. Sonara, B. Sarkar, R. Bhattacharya, R. Panchal, R. Patel, J. Tank, Manoj Singh, A. Sahu, Y. Saxena

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引用次数: 1

摘要

为SST-1机器设想了两种温度制度，热屏蔽80 K，超导磁体系统4.5 K。温度测量的目的是两倍(i)监测温度分布以及工艺参数(ii)，以实现从300 K到4.5 K和80 K的控制冷却。温度传感器已安装在所需位置的冷表面上，以减轻冷却和稳定状态期间的操作。用于温度测量和控制的技术是基于连续电阻测量的。Cernox™传感器(lakesshore制造)和PT-102分别用于4.5 K和80 K表面的温度测量。数据采集系统(DAS)采用国产4 ~ 20ma电流回路温度变送器，在灵活性方面提供了更好的功能。采用可编程控制器与变送器直接接口，设计和开发了控制功能。T…

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INSTRUMENTATION, DATA ACQUISITION AND CONTROLS FOR TEMPERATURE MEASUREMENT OF COLD SURFACES AT 4.5 K AND 80 K OF SST-1 MACHINE

Two-temperature regimes have been envisaged for the SST-1 machine, 80 K on the thermal shield and 4.5 K on the superconducting magnet system. The aim of temperature measurement is two folds (i) to monitor the temperature distribution as well as process parameters (ii) to achieve controlled cool down from 300 K to 4.5 K and 80 K. Temperature sensors have been mounted on cold surfaces at required locations to ease the operation during cool down and steady state. Techniques employed for temperature measurement and controls are based on continuous resistance measurement. Cernox™ sensors (Lakeshore made) and PT-102 have been used for the temperature measurement at 4.5 K and 80 K surfaces respectively. The data acquisition system (DAS) has been indigenously developed using 4-20 mA current loop temperature transmitter, which provided better functioning in terms of flexibility. The control functioning has been designed and developed using programmable logic controller with direct interfacing of the transmitter. T...

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Advances in cryogenic engineering

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