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Non-gaussian integer digital multi-channel pulse analyzer of spectrograph

A multi-channel pulse and analyzer technology, applied in the field of analyzers, can solve problems such as the increase of baseline noise amplitude, and achieve the effects of short rising edge time, simplified algorithm, and simplified pulse height.

Active Publication Date: 2012-12-19
SHENZHEN UNIQUE METRICAL TECH
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AI Technical Summary

Benefits of technology

This patented technique allows for direct sending signals at an appropriate level before analyzing them with another device called a computer system or analogue instrumentation (ADE). By doing this process, it can improve the speed and accuracy of measuring pulses by accurately determining their distance between two points on its surface. Additionally, because there are fewer steps involved than traditional methods like ruler measurement, these techniques reduce complexity while improving efficiency.

Problems solved by technology

This patented technical problem addressed in this patents relates to improving the efficiency and precision of measuring multiple channels with a single instrument without sacrificing speed or resolution capabilities.

Method used

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  • Non-gaussian integer digital multi-channel pulse analyzer of spectrograph
  • Non-gaussian integer digital multi-channel pulse analyzer of spectrograph
  • Non-gaussian integer digital multi-channel pulse analyzer of spectrograph

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Embodiment Construction

[0019] The present invention will be further described below in conjunction with specific examples, but the present invention is not limited to the following examples.

[0020] Such as figure 1 As shown, the multi-channel pulse processor: the full name of the multi-channel pulse amplitude analyzer (MCA), the function is to divide the amplitude of the AD sampling range into 102420484096 channels, and each channel records the number of pulse amplitudes respectively, such as the AD acquisition signal range It is -0.3V to 3V, 2048 channels, then the amplitude corresponding to each channel is 3.3 / 2048=1.6mV. When a signal with a pulse amplitude of 1V is collected, add 1 to the 1000mV / 1.6mV channel count, and add 1 to the 2048 channel count when it is 3.3V, as shown in Figure 0, the x-axis is the channel value, and the Y Axis is count rate.

[0021] A non-Gaussian digital multi-channel pulse analyzer of a spectrometer, which directly samples the preamplifier signal (charge sensiti...

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Abstract

The invention discloses a non-gaussian integer digital multi-channel pulse analyzer of a spectrograph. A pre-amplified signal is directly sampled and subjected to amplitude analysis. Due to the fact that the pre-amplified signal is used as a sampled signal, the rising edge is fast and less than 300ns in general; a falling edge is slow and not greater than 20mus in general; the overlapping opportunity of peak positions of the rising edge is fewer under the condition of high counting rate; the lowest point and the highest point of the rising edge are tracked in novel multi-channel pulse analysis, and the difference value between the highest point and the lowest point is a multi-channel value correspondingly. Compared with the previous analysis method, the effect of baseline noise on the peak position is small; the method for judging peaks adopts continuous signal amplitude rising for three times; a peak is determined when the value is greater than a fixed value, and either noise or a real peak can be easily distinguished.

Description

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Claims

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Application Information

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Owner SHENZHEN UNIQUE METRICAL TECH
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