SU401894A1 - RECORDER PULSE LIGHT SIGNALS - Google Patents

Description

one

The invention relates to a technique that registers dim light fluxes of the visible range, and can be used in light location, astronomy, nuclear physics, etc.

The known receiver, which detects weak light fluxes, consists of a detector of light signals, which uses a photomultiplier tube, an amplifier, and a threshold device. Signal detection in such a receiver is performed by comparing the amplitude of the amplified voltage, proportional to the magnitude of the received light pulse, with a certain threshold corresponding to a predetermined probability of a false alarm.

The disadvantage of the existing receiver is the low sensitivity due to the dependence of the noise and signal amplitude distribution of the pulses on the shape of the PMT pulse response, fluctuation of the PMT gain factor, fluctuation of the PMT pulse response duration.

The aim of the invention is to increase the sensitivity of the recorder of light signals, which is expressed in reducing the threshold power of the recorded signal with the same probabilities of correct detection and false alarm.

The goal is achieved by the fact that the photodetector is made in the form of a photoemission device with a multichannel electronic multiplying system and a system of scanning photoelectrons along the inputs of a multiplying system, the outputs of which are connected to the inputs of the delay line. One of the outputs of the delay line through an amplifier and an additional threshold device is connected to a pulse counter, the output of which is connected to the threshold device through a gate device.

The block diagram of the recorder pulsed light signals shown in the drawing.

The recorder consists of a multichannel photoemitting receiver 1, the outputs of which are connected to the inputs of delay line 2, loaded on wave resistances 3, and successively connected pulse amplifier 4, threshold device 5, gate device 6, pulse counter 7

and the main threshold device 8.

The registrar works as follows. The light pulse signal is converted into an electron flux by a photocathode 9 of a multichannel photoemission receiver 1. By means of a deflection system 10 and a sweep voltage generator 11, the electron flux is rotated through the inputs of the multichannel multiplying system 12. The sweep rate of the electron flux

through channels is chosen such that the probability

the penetration of more than one electron into each channel of the multiplying system is rather small. At the outputs of 13 channels of the multiplying system, impulse responses of each channel to one electron appear, if an electron has hit the input of this channel. The impulse reactions go to the inputs of the delay line 2. The delay line is set to separate the impulse reactions in time and ensure the operation of the pulse counter 7. The delay lines 2 are loaded on both sides to the impedances 3. From one of these impedances, the impulse responses go to the amplifier 4, s the output of which enters the threshold device 5, which is necessary to cut off the noise of the amplifier and multiplication system 12. From the threshold device 5, the signal is fed to the pulse counter 7 through the strobe device 6. Straw The viewing device opens the counter input for the desired signal observation time. Number of pulses

counted by the counter is compared with the threshold in threshold device 8 to make a decision about the presence of a signal.

 the invention

A recorder of pulsed light signals, containing a photodetector, an amplifier and a threshold device, characterized in that, in order to increase the sensitivity of the recorder, the photodetector is designed as a photoemission instrument with a multichannel electronic multiplying system and a system for scanning photoelectrons to the inputs of a multiplying system, the outputs of which are connected to the inputs of the delay line, one of the outputs through which the amplifier and an additional threshold device is connected to a pulse counter whose output is black Without a strobe device is connected to the threshold device.

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