Control circuit of magnetic suspension experimental setup
A technology for control circuits and experimental devices, applied in educational appliances, instruments, teaching models, etc., can solve problems such as the inability to meet magnetic levitation experiments and the lack of control circuit research for magnetic levitation experimental devices, and achieve the elimination of integral links, high reliability, and high reliability. The effect of a large adjustment range
Active Publication Date: 2014-01-01
北京天路时代电气设备有限责任公司
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Problems solved by technology
However, in the existing scientific research institutions and colleges and universities, the research and development of the experimental device of the magnetic levitation technology is in a blank stage, and there is even a lack of research on the control circuit of the experimental device of the magnetic levitation, so that the requirements of the magnetic levitation experiment cannot be met.
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[0025] It should be noted that, in the case of no conflict, the embodiments in the present application and the features in the embodiments can be combined with each other. The present invention will be described in detail below with reference to the accompanying drawings and examples.
[0026] First, the magnetic levitation experimental device applying the control method and control device of the embodiment of the present invention will be described. The magnetic levitation experimental device generates magnetic force through two electromagnets to ensure that a levitating part with a certain length is suspended in space and detects the measured The position of the levitation part is used as a feedback signal, and the levitation attitude of the levitation part to be tested is changed by adjusting the magnetic force of the electromagnet to complete the magnetic levitation experiment process.
[0027] figure 1 It is a structural diagram of a magnetic levitation experimental devi...
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The invention provides a control circuit of a magnetic suspension experimental setup. The control circuit of the magnetic suspension experimental setup comprises a first control panel and a second control panel which are the same in circuit structure. The first control panel and the second control panel respectively comprise a sensor interface, a proportion differential regulation circuit, a signal modulation circuit and a driving circuit, wherein the sensor interfaces are connected with a sensor part and used for receiving measuring signals, the proportion differential regulation circuits are connected with the sensor interfaces and used for conducting proportion differential regulation on the measuring signals, the signal modulation circuits are connected with the proportional differential regulation circuits and used for conducting overlapping and modulating on the measuring signals undergoing proportion differential regulation and preset static working point voltage signals to obtain modulation control signals, and the driving circuit is connected with the signal modulation circuit and used for outputting exciting currents to corresponding electromagnets according to the modulation control signals. The two independent control panels are set up in the control circuit by the utilization of simulation circuits, the circuit structure is simple, current signal collection is not needed, the link of integration is omitted, fault points which can appear are reduced, and the reliability is high.
Description
technical field [0001] The invention relates to the field of scientific research experimental devices, in particular to a control circuit of a magnetic levitation experimental device. Background technique [0002] Magnetic levitation technology originated in Germany. As early as 1922, German engineer Hermann Kemper proposed the principle of electromagnetic levitation. With the development of electronic technology, control engineering, signal processing components, electromagnetic theory and new electromagnetic materials and the progress of rotor dynamics, maglev technology has made great progress. In recent years, maglev technology has been widely used in many fields, such as maglev trains, active control maglev bearings, maglev balances, maglev small transmission equipment, maglev measuring instruments, maglev robot wrists, maglev teaching systems, etc. [0003] Based on the broad application prospects of the above-mentioned maglev technology, the existing research methods...
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IPC IPC(8): G09B23/18
Inventor 冯玉东赵荣华骆力闫文凤曹承侃
Owner 北京天路时代电气设备有限责任公司