RU2561877C1 - Laser radiation source direction finder - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: device includes a receiving optical system, a multielement photodetector optically coupled with said system, n signal processing channels, each consisting of a preamplifier, a threshold device and a two-input OR circuit, a monostable multivibrator, n control signal generators, each having a two-input AND circuit, an analogue switch, a pulse duration normalisation circuit and a stabilised voltage source.

EFFECT: enabling verification of processing of output signals of a photodetector during operation without using a radiation source located in the field of view of the device.

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Description

The invention relates to the field of optoelectronic instrumentation, and more specifically to devices for detecting and direction finding laser radiation sources, such as a rangefinder or target designator, and can be used in self-defense systems of moving objects of military equipment (for example, armored) from controlled weapons by placing optical or other interference in the direction of the threat.

Direction finding devices for laser radiation sources, especially those that are part of the self-defense systems of mobile objects of military equipment, have increased demands on the reliability of outputting data on the location of laser radiation sources in the viewing field of view with the relative simplicity of the device’s design.

A known method and device for direction finding of a point source of optical radiation, for example, a laser range finder or target designator for protection systems for moving objects of military equipment [1]. The essence of the invention lies in the fact that in the direction finding method and its implementing device, which uses the spatial coding principle (in the Gray code) to determine the direction of the radiation source, the position of the source is estimated using a multi-channel optical receiving system consisting of 2n separate lenses, where n - the number of bits of code, optically associated masks (with "positive" and "negative" patterns) and photodetectors, pairwise connected to the total load differentially, the outputs of which are connected to existing threshold element.

It is also known a device for direction finding of a point source of optical radiation [2], comprising an optical system, 2n coding "photodetector masks" of the Gray binary code system, wherein the optical system is made of n independent identical optical channels, each of which contains a wide-angle lens, a projection system, coding mask and radiation receiver.

The disadvantage of such technical solutions is the design complexity due to the use of a multi-channel optical receiving system.

An optical radiation detection device is also known, comprising an optically coupled receiving optical system, an element-wise photodetector, n × p signal processing channels, each of which consists of a series-connected preamplifier and a threshold device, the outputs of each p of n × p channels are connected to a p-input circuit “AND”, and the outputs of n p-input circuits “AND” are connected to the n-input circuit “OR” [3]. This device is selected by the authors as a prototype, as the closest in technical solution.

The disadvantage of the prototype device is the inability to verify the correct processing of the output signals of the photodetector without using a radiation source in the field of view of the device.

The technical task is to ensure verification of the correct processing of the output signals of the photodetector without using a radiation source in the field of view of the device. Such a check in operation will make it possible to identify and take into account the faulty signal processing channels of the direction finding device and the communication lines of the device with the system in the self-defense system and, thereby, increase the reliability of determining the direction to the laser radiation source. The check should be carried out when a control pulse of a certain duration is supplied to the input of the device, exceeding the possible duration of the laser pulses. At the output of serviceable channels of the device, pulsed signals of the log level should appear. 1. To ensure selection by the system of test signals, the output pulses in the test mode must have a duration equal to the duration of the control pulses.

The required technical result is achieved by the fact that in the device containing the optically coupled receiving optical system and a multi-element photodetector, n identical signal processing channels, each of which consists of a series-connected preamplifier and threshold device, an additional waiting multivibrator, a stabilized voltage source, and n identical control signal generators, each of which contains a two-input “I” circuit and an analog switch, as well as a duration normalization circuit pulse, and two-input OR circuits are introduced into each signal processing channel; in this case, the multi-element photodetector is coded with an n-bit Gray code and two outputs for each category, the preamplifier is made in the form of an amplifier with a differential input and an additional summing input, with pairs of outputs each discharge of the photodetector from the 1st to the nth are connected to the differential inputs of the preamplifiers from the 1st to the nth signal processing channels, respectively, the output of the threshold device of the signal processing channels from the 1st to the nth connected to the first input of the OR circuit and the first input of the normalization circuit for the pulse width of the control signal drivers 1 through n, the output of which is connected to the second input of the OR circuit, the input of the device is connected to the input of the standby multivibrator, and the second inputs of the circuits And ”and the second inputs of the pulse width rationing circuits, the output of the waiting multivibrator is connected to the first inputs of the“ I ”circuits of the control signal conditioners from 1 to n, the output of the“ I ”circuit is connected to the control input of the analog key, the inputs of the analog keys are The control signal amplifiers from the 1st to the n-th are combined and connected to a stabilized voltage source, the outputs of the analog keys of the control signal generators from the 1st to the n-th are connected to additional summing inputs of the preamplifiers, respectively, from the 1st to the n-th processing channels signals, the outputs of the OR circuits of the signal processing channels from the 1st to the nth are the corresponding outputs of the n-bit binary code of the position of the laser radiation source.

The pulse width standardization circuit can be performed, for example, on the basis of the standby multivibrator, while the second input of the pulse width standardization circuit is connected to the reset input of the standby multivibrator.

The invention is illustrated in the drawing, which shows a structural diagram of the device.

The device contains a receiving optical system 1, an optically coupled multi-element photodetector 2, n signal processing channels 3, each of which consists of a preamplifier 4, a threshold device 5 and a two-input OR circuit 6, waiting for a multivibrator 7, n of the control signal conditioners 8, each of which contains a two-input circuit “I” 9, an analog switch 10, a circuit for normalizing the pulse duration 11, and a stabilized voltage source 12.

As a multi-element photodetector in the claimed device uses a well-known multi-element code photodetector, designed to determine the coordinates of the light strip in optoelectronic devices and generates an output signal in the n-bit Gray code [4]. An N-bit photodetector contains n pairs of primary and secondary discharges. The N-bit photodetector allows 2 ⁿ coordinates of the radiation source in the field of view of the optical system to be recorded in a digital code. Optical systems providing the formation of a light strip from a point radiation source are also widely known and constructed, for example, using cylindrical lenses [5]. Preamplifiers, which are amplifiers with a differential input and an additional summing input and performed, for example, on operational amplifiers, are widely known in the technical literature. Threshold devices are also widely known in the technical literature. The threshold value may be the level of the pulse signal or, for example, the level and steepness of the front of the input pulse signal.

The operation of the device in the presence of a source of pulsed laser radiation in the field of view of the optical system occurs as follows. The radiation from this source by the optical system 1 of the device is converted into a strip perpendicular to the discharges (photosensitive elements) of the multi-element photodetector 2 and irradiating certain areas of the photodetector depending on the direction of radiation. Since the photosensitive areas of the photodetector are arranged in accordance with the Gray code, the output signals of the photodetector carry information about the angular position of the radiation source in a digital code. The connection of the primary and secondary discharges to the differential inputs of the preamplifiers 4 allows one to reduce the influence of background illumination and dark currents on the accuracy of determining the coordinate. The analogue pulse output signal of the preamplifier of each channel is supplied to the input of the threshold device 5. At the output of the threshold device, a pulse signal of “logical 1” is generated when the input signal exceeds a threshold by signal level or, for example, thresholds by the level and steepness of the front of the input signal. When the signal level or, for example, when the level and steepness of the front of the input signal is lower than the threshold, a “logical 0” signal is generated at the output of the threshold device. The output signal of the threshold device of each signal processing channel is supplied to the first input of the OR circuit 6, the output signal of which is the output signal of the claimed device and determines the value of the corresponding discharge of the gray output digital code that determines the angular position of the radiation source.

When checking the correct functioning of the signal processing channels of the photodetector, as well as the communication line of the device with the system without using a laser source in the field of view of the device, including during operation, a control pulse is applied to the input of the device. The duration of the control pulse is strictly defined and significantly exceeds the pulse duration of known sources of pulsed laser radiation. This pulse is fed to the input of the waiting multivibrator 7. A waiting multivibrator is launched along the leading edge of the pulse, which generates a pulse whose duration is comparable to the duration of the pulse of laser radiation sources. The pulse from the output of the waiting multivibrator is fed to the first input of the And circuit 9, to the second input of which a control pulse is supplied. This ensures the supply to the control input of the analog key 10 of the output pulse of the waiting multivibrator exclusively in the presence of a control pulse. The analog key is opened and a positive pulse appears with the amplitude equal to the voltage of voltage source 12, which is supplied to the additional summing input of the preamplifier 4. The magnitude of the voltage of the source and the transfer coefficient of the amplifier through the additional summing input are selected such that a pulse appears at the output of the preamplifier a signal simulating the duration and amplitude of the signal that appears at the output of the preamplifier in the presence of a pulse source in the field of view of the optical system oh laser radiation. From the output of the preamplifier, the pulse is supplied to the threshold device 5. The threshold value of the threshold device may be the level of the pulse signal or, for example, the level and steepness of the front of the input pulse signal. When the signal exceeds a threshold value, an output signal of the log level is generated at the output of the threshold device 5. 1. The presence of a signal indicates the serviceability of the signal processing channel, taken from the photodetector. This signal is fed to the first input of the OR circuit 6 and to the input of the normalization circuit for the pulse duration 11, to the second input of which a control pulse is supplied. If there is a pulse at the first input of the normalization circuit for the pulse duration 11 and the input control pulse, a log level pulse appears at the output. 1 and the duration strictly equal to the duration of the control pulse. This signal is fed to the second input of the OR circuit 6, an impulse of the log level appears at its output. 1 and the duration strictly equal to the duration of the control pulse, which is the output pulse of the corresponding discharge of the device. If all N channels of signal processing are operational, pulse log level signals are generated at the output of all bits of the device. 1 and the duration strictly equal to the duration of the control pulse, which are fed to the input of the system equipment. In the event of a malfunction of one or more signal processing channels, the output log signal. 1 is not formed.

Thus, the proposed device allows in self-monitoring mode, without using a laser radiation source, to monitor the operation of the device and the communication line with the system, to identify faulty bits of the Gray code of the output signal of the direction finding device of the laser radiation sources and the communication line with the system. In the process, this information is taken into account by the protection system to increase the reliability of determining the direction to the laser radiation source.

Information sources

1. RF patent No. 2393496.

2. RF patent No. 2390790.

3. RF patent No. 2276382 - prototype.

4. B.S. Nikonov et al. Optical-Mechanical Journal, 1983 No. 2, pp. 45-47.

5. L.N. Presnukhin et al. Photoelectric information converters. - M., Mechanical Engineering, 1974.

Claims (1)

A device for direction finding of laser radiation sources, comprising optically coupled receiving optical system and a multi-element photodetector, n identical signal processing channels, each of which consists of a series-connected preamplifier and a threshold device, characterized in that a waiting multivibrator, a stabilized voltage source, and n identical shapers of control signals, each of which contains a two-input “I” circuit and an analog switch, as well as a normalized circuit duration of the pulse, and two-input OR circuits are introduced into each signal processing channel, while the multi-element photodetector is made code with an n-bit Gray code and two outputs for each discharge, the preamplifier is made in the form of an amplifier with a differential input and an additional summing input, at the pairs of outputs of each discharge of the photodetector from the 1st to the nth are connected to the differential inputs of the preamplifiers from the 1st to the nth signal processing channels, respectively, the output of the threshold device of the signal processing channels from the 1st to the nth is connected to the first input of the OR circuit and the first input of the normalization circuit of the pulse width of the control signal shapers from 1st to nth, the output of which is connected to the second input of the OR circuit, the input of the device is connected with the input of the standby multivibrator, the second inputs of the circuits And the second inputs of the normalization of the pulse duration, the output of the standby multivibrator is connected to the first inputs of the circuits And the drivers of the control signals from the 1st to the n-th, the output of the circuit And is connected to the control analog key input, analog inputs The first keys of the control signal conditioners from the 1st to the nth are combined and connected to a stabilized voltage source, the outputs of the analog keys of the control signal conditioners from the 1st to the nth are connected to additional summing inputs of the preamplifiers, respectively, from the 1st to the nth signal processing channels, outputs of OR circuits of signal processing channels 1 through n are the corresponding outputs of the n-bit binary code of the position of the laser radiation source.