High-reliability adaptive sampling circuit for key phase pulses

A key-phase pulse and sampling circuit technology, which is applied in the field of key-phase pulse adaptive sampling circuit, can solve the problems of poor self-adaptability, inability to recognize pulse amplitude, manual configuration, etc., and achieve the effect of intelligent sampling

Active Publication Date: 2018-11-13
XUJI GRP +4
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0007] The purpose of the present invention is to provide a highly reliable key-phase pulse adaptive sampling circuit, which is used to solve the problems that the existing key-phase pulse acquisition circuit cannot identify the pulse amplitude, needs manual configuration, and has poor self-adaptive ability

Method used

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  • High-reliability adaptive sampling circuit for key phase pulses
  • High-reliability adaptive sampling circuit for key phase pulses
  • High-reliability adaptive sampling circuit for key phase pulses

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Embodiment Construction

[0024] The specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0025] The present invention proposes a key-phase pulse sampling circuit, such as image 3 As shown, it includes at least the first A / D sampling module, amplitude attenuation module, comparison module and FPGA, the input end of the amplitude attenuation module is used to receive the key phase pulse, and the output end of the amplitude attenuation module is respectively connected to the first A / D D sampling module and comparison module, the first A / D sampling module is connected to FPGA, the input end of the comparison module is connected to FPGA, and FPGA is used to calculate the amplitude attenuation coefficient and the comparison threshold according to the key phase pulse collected by the first A / D sampling module , the amplitude attenuation module is used to receive the attenuation coefficient sent by the FPGA, and attenuate the amplitude...

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Abstract

The invention relates to a high-reliability adaptive sampling circuit for key phase pulses, and belongs to the technical field of power system real-time measurement. The high-reliability adaptive sampling circuit for the key phase pulses comprises a first A/D sampling module, an amplitude attenuation module, a comparison module and a processor, wherein the first A/D sampling module is connected with the processor, the amplitude attenuation module is connected with the processor through the comparison module, the processor is used for calculating an amplitude attenuation coefficient and a comparison threshold according to a key phase pulse collected by the first A/D sampling module, the amplitude attenuation module is used for receiving the attenuation coefficient transmitted by the processor and attenuating the amplitude of the key phase pulse according to the attenuation coefficient, and the comparison module is used for comparing the comparison threshold fed back by the processor with the amplitude attenuated key phase pulse and outputting a level signal capable of being directly collected by the processor. The adaptive sampling circuit can adapt to diversified pulses in the field, reduce the labor consumption and improve the intelligent degree; and meanwhile, the adaptive sampling circuit can performs self-checking on the threshold reference voltage of a comparator timely, thereby improving the reliability of the system.

Description

technical field [0001] The invention relates to a highly reliable key-phase pulse self-adaptive sampling circuit, which belongs to the technical field of real-time measurement of power systems. Background technique [0002] Generator power angle is an important record data of grid disturbance, oscillation and instability trajectory, and one of the important state indicators reflecting the stability of power system. Therefore, it is of great significance to study a highly reliable generator power angle measurement circuit. [0003] At present, the power angle of the generator is obtained by measuring the key phase sensor, and the key phase measurement is by setting a groove 2 on the measured shaft, called the key phase mark, such as figure 1 As shown, when the groove 2 turns to the position of the probe, it is equivalent to the change of the distance between the probe and the surface to be measured. The sensor 1 will generate a pulse signal. Every time the shaft rotates, a pu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B19/042
CPCG05B19/0425G05B2219/2612
Inventor 王振华郭震周文博唐亮孙辰军卢朝晖魏明磊赵明敏胡凯利姚艳艳
Owner XUJI GRP
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