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Space multipoint instantaneous light intensity signal acquisition method based on Darlington type phototransistors

A technology of photosensitive triode and acquisition method, which is applied in the direction of using electric radiation detectors for photometry and measurement circuits, to achieve real-time acquisition and storage, and to solve the effects of test accuracy and real-time problems

Inactive Publication Date: 2012-04-25
STATE GRID CORP OF CHINA +1
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Problems solved by technology

[0003] The object of the present invention is to provide a method for acquiring spatial multi-point instantaneous light intensity signals based on Darlington-type phototransistors, to solve the problems in the acquisition of multi-point real-time data in existing flow field tests, and to combine free space tomography The inversion algorithm can obtain the three-dimensional physical parameter distribution of the object to be measured

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  • Space multipoint instantaneous light intensity signal acquisition method based on Darlington type phototransistors
  • Space multipoint instantaneous light intensity signal acquisition method based on Darlington type phototransistors

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[0009] Such as figure 1 As shown, the present invention is realized in this way. The light intensity data acquisition unit is composed of an optical fiber 1, a fiber coupler 3, a Darlington photosensitive transistor 2 and a peak hold circuit. A plurality of light intensity data acquisition units. In this data acquisition unit, one end face of the optical fiber 1 is efficiently coupled with the skylight of the Darlington phototransistor 2 through the optical fiber coupler 3, and the other end of the optical fiber 1 is used as the entrance of light radiation . The spatial multi-point optical radiation signal that meets the requirements of the incident aperture of the optical fiber 1 passes through the optical fiber 1 and is sensed by the Darlington phototransistor 2 through the fiber coupler 3. The two stages of the Darlington phototransistor 2 are connected to a 10V working voltage, where A numerically controlled electronic switch 14 is connected between the collector of the p...

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Abstract

The invention relates to a space multipoint instantaneous light intensity signal acquisition method based on Darlington type phototransistors, which adopts a digital signal processor (DSP) chip to control an electronic switch so as to realize the control for a working power supply of the phototransistors in all light intensity data acquisition units, so that the phototransistors in all the light intensity data acquisition units can be instantaneously started in a way of an electronic shutter, and space multipoint light intensity signals can be acquired; meanwhile, output ends of all the phototransistors are connected with a peak holding circuit, so that the acquired space multipoint light intensity signals are converted into voltage signals, and then are locked and stored in the peak holding circuit. The space multipoint instantaneous light intensity signal acquisition method based on the Darlington type phototransistors has the beneficial effects that in the optical flow field test, a plurality of light intensity data acquisition units are fixedly arranged at a plurality of points of the space, and the light intensity signals are needed to be acquired in the space, so that space multipoint optical radiation signals can be acquired and stored in real time; and three-dimensional flow field distribution can be reconstructed by free space ray rearrangement inverse algorithm, so that the problems of test accuracy and real-time performance of the optical flow field can be solved.

Description

technical field [0001] The invention relates to a method for collecting instantaneous light intensity signals of multiple points in space, in particular to a method for collecting instantaneous light intensity signals of multiple points in space based on a Darlington phototransistor. Background technique [0002] At present, in the optical flow field test, the real-time collection of optical radiation information of multiple points in space is a relatively difficult problem to solve. Using digital camera electronic shutter plus exposure technology, the instantaneous light intensity signals in several directions of the flow field to be measured can be obtained in the charge coupled device image sensor CCD (Charge Coupled Device) of the digital camera. However, in the collection of discrete spatial multi-point optical radiation information, the use of traditional shutter technology and a large number of charge-coupled device image sensors CCD not only increases the cost and c...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J1/46
Inventor 万雄肖文荟张志敏
Owner STATE GRID CORP OF CHINA
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