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Nuclear magnetic resonance spectrometer gas circuit and temperature control system based on LAN (Local Area Network) and CAN (Controller Area Network) bus

A nuclear magnetic resonance spectrometer and CAN bus technology, applied in the field of nuclear magnetic resonance spectrometer gas circuit and temperature control system, can solve the problems of difficult maintenance, limited transmission distance, easy failure, etc., achieve good electromagnetic interference resistance, reduce system The effect of connecting and improving convenience

Inactive Publication Date: 2011-02-09
XIAMEN UNIV
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  • Abstract
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  • Application Information

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Problems solved by technology

The transmission distance of multi-strand signal lines is limited, which determines that the distance between the gas circuit and the temperature control system and the hardware console cannot be too large ([3] Wu Zhenxiang, Zhang Guangming, Wei Xiaodong. Design of remote monitoring system for CNC machine tools based on CAN bus and research [J]. Machine Tools and Hydraulics, 2010 (06): 62-64), and increased the complexity and system cost of the system; and the multi-strand signal line itself has problems such as instability and failure ([4 ] Zheng Zhenyao, Li Jie, Tan Jun, etc. Room temperature shimming power supply for superconducting magnets: China, CN101673947[P].2010-03-17), once a fault occurs, the entire cable must be replaced, which is difficult to maintain, thus Directly reduces the reliability, scalability and maintainability of the gas path and temperature control system

Method used

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  • Nuclear magnetic resonance spectrometer gas circuit and temperature control system based on LAN (Local Area Network) and CAN (Controller Area Network) bus
  • Nuclear magnetic resonance spectrometer gas circuit and temperature control system based on LAN (Local Area Network) and CAN (Controller Area Network) bus
  • Nuclear magnetic resonance spectrometer gas circuit and temperature control system based on LAN (Local Area Network) and CAN (Controller Area Network) bus

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Embodiment Construction

[0025] In order to make the technical means, innovative features, goals and effects achieved by the present invention easy to understand, the present invention will be further described in detail below in conjunction with the accompanying drawings:

[0026] like figure 1 As shown, the embodiment of the present invention has a central processing unit 1, a display unit 2, a first CAN interface circuit 3, a second CAN interface circuit 4, a speed measurement circuit 5, a pneumatic valve drive circuit 6, a temperature measurement unit 7 and a heating circuit 8. The central processing unit 1 is connected to the computer 12 through the router 11, and the network protocol adopts the TCP / IP protocol; the central processing unit 1 and the display unit 2, the first CAN interface circuit 3, the second CAN interface circuit 4, the speed measurement circuit 5, and the pneumatic valve drive Circuit 6, temperature measurement unit 7 and heating circuit 8 are connected by standard CAN bus cab...

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Abstract

The invention relates to a nuclear magnetic resonance spectrometer gas circuit and temperature control system based on an LAN (Local Area Network) and a CAN (Controller Area Network) bus, belonging to a nuclear magnetic resonance spectrometer and providing a nuclear magnetic resonance spectrometer gas circuit and temperature control system based on the LAN and the CAN buses, with characteristics of strong independence and reliability, simpler structure, easy expansion, convenient maintenance, and the like. The nuclear magnetic resonance spectrometer gas circuit and temperature control system is provided with a central processing unit, a display unit, a CAN interface circuit, a rotating speed measuring circuit, a pneumatic valve drive circuit, a temperature measuring unit and a heating unit, wherein the central processing unit is connected with a computer; the central processing unit is connected with the display unit, the CAN interface circuit, the rotating speed measuring circuit, the pneumatic valve drive circuit, the temperature measuring unit and the heating circuit by adopting a standard CAN bus cable; the input end of the rotating speed measuring circuit is externally connected with a photoelectric rotating speed sensor, and the output end of the pneumatic valve drive circuit is externally connected with an electronic air valve; and the temperature measuring unit is externally connected with a thermoelectric couple, and the heating circuit is externally connected with a heating wire.

Description

technical field [0001] The invention relates to a nuclear magnetic resonance spectrometer, in particular to a gas circuit and temperature control system of the nuclear magnetic resonance spectrometer based on LAN and CAN bus. Background technique [0002] The gas circuit and temperature control system are one of the important components of the nuclear magnetic resonance spectrometer. The main functions of the gas circuit and temperature control system are: ① Control the stability of the magnet legs to prevent vibration; ② Control the probe, gasket, and upper condenser tube; ③ Control And detect the gas flow in the variable temperature experiment ([1] Tang Funan. EM-360L nuclear magnetic resonance spectrometer variable temperature experimental technology [J] Analytical Instruments, 1988 (03): 30-33); ④ control the flow of liquid samples Lifting / lowering, lifting, rotating; ⑤ controlling the high-speed rotation of solid samples, etc. [0003] The NMR spectrometer is a high-en...

Claims

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Application Information

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IPC IPC(8): G01R33/30G01R33/31
Inventor 刘鸿飞陈忠郑振耀孙惠军陈志伟林超力
Owner XIAMEN UNIV
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