SU905657A1 - Pulse photometer - Google Patents

Description

(5t) PULSE (tJOTOMETP

I

The invention relates to photometry, namely to impulse photometry, and can be used in devices for measuring parameters of single short pulses.

A device for pulse photometry is known which contains a photoconverter, amplitude discriminators and a processing and recording unit 11.

The closest technical solution to the invention is a pulsed photometer containing n photoconverters and amplitude discriminators, the outputs of which are connected to the processing and recording unit. 2b

The disadvantage of the 1st device is the limited accuracy due to the impossibility of determining the statistical distribution function of the measurement results for each pulse.

The purpose of the invention is to improve accuracy.

To achieve this goal, a pulsed photometer containing n photoconverters and amplitude discriminators, the outputs of which are connected to the processing and recording unit, are inserted sequentially installed through the beam-splitting elements (p-1) of the optical lines of the holder, and at the second output of each beam-splitting element and at the output The last optical delay line is set to one phototransducer, the output of each

15 of which are connected to the inputs of all amplitude discriminators.

The drawing shows a diagram of the device.

The device contains a block of 1 with

20 successively installed optical delay lines 3 through the beam-splitting elements 2 (p-1); n photo-converters 4, each of

which is installed at the output of one of the beam splitting elements and connected with the inputs of all m amplitude discriminators 5 whose outputs are connected with the processing and recording unit 6, Unit 1 contains a mirror 7.

The device works as follows.

The light signal, the amplitude of which must be measured, is fed to the input of the beam splitter element in block 1, from the first output of which the signal goes to the series-connected optical delay lines 3, passing through the light-emitting diode 2 3. From the output (of the ettic delay line (p-1), either directly or through an auxiliary optical element, in particular, 7, the optical signal goes to the n-th photoconverter 4. From the second outputs are beam-splitting x elements, optical signals are fed to photoconverters, where they are transformed into electrical signals, and from the photovoltage outputs, the signals arrive at the inputs of all m amplitude discriminators 5. Due to the presence of optical delay lines, the signals separated in time are spaced in time. processing and registration unit 6. Amplitude discriminators are tuned to different thresholds, ordered according to

U, u u either

and, and, and, ... and.

The information in the processing and recording unit 6 is the distribution of the number of samples by the measurement intervals found for a single optical signal. This distribution is not a convolution with

the amplitude distribution of the signal of the source of optical radiation. Thus, it is a characteristic of only a measuring instrument. Moreover, this distribution is a characteristic of a measuring instrument according to the state of a given measuring act. Using the resulting distribution function, you can

calculate the confidence probabilities for the selected confidence intervals.

This invention allows higher accuracy with

measuring the power of single or periodic optical signals, since the device can be used to obtain the function of the distribution of the number of samples of the instrument and, accordingly,

confidence probability for the selected confidence intervals.

Claims (2)

Claims of the invention A pulsed photometer containing n converters and amplitude discriminators, the outputs of which are connected to the processing and recording unit, characterized in that, in order to increase languor, n-1 optical delay lines installed through the beam-splitting elements are introduced into it, and at the second output of each beam-splitting element and the output of the last optical delay line is set to one photovoltage, the output of each of which is connected to the inputs of all amplitude discriminators. Sources of information taken into account in the examination 1. Naman. Measurement of the shape of picosecond pulses. TIIER, t. 66, ff k, 1978, p.96. 2. USSR author's certificate - W 7 “t2 3, cl. G Ot J, 1979 Gprotioty).