SU1277153A1 - Optronic correlator - Google Patents

Abstract

The invention relates to the field of optoelectronics and can be used to calculate the correlation function in auto ation devices. The aim of the invention is to improve the accuracy. This goal is achieved by applying an ADC to one of the input channels, the output of each bit of which is connected to the light source of the line of point light sources through the corresponding keys controlled by the second input channel. The radiation power of each of the sources is twice the radiation power of the previous source in the line. The point source line is connected to the CCD line through a cylindrical lens. 1 il.

Description

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Claims (3)

The invention relates to optoelectronics and can be used to calculate the correlation function of two unipolar electric signals in various automation devices, for example, in correlation velocity and range measurements. The aim of the invention is to improve the accuracy. The drawing shows a block diagram of the device. The device contains an analog-to-digital converter (1DP) 1 for converting an analog signal into a p-bit binary code with weights pi t, i. , ...,, ...,. Output every i ,,,,,, ..., /. the second bit of the ADC 1 is connected to the control input of the corresponding key 2. The information inputs of the keys are connected in parallel and form the second information input of the correlator, the first information input of which is the input of the ADC 1. The output of each of the keys is connected to the corresponding source 3 line of point sources of light. The ruler is placed in one of the focuses of the cylindrical lens 4, which is placed between the ruler of point light sources and the ruler of devices with charge connection 5. Light sources 3, lens 4 and ruler 5 are placed in an opaque case 6, Output of the generator of shear pulses 7 are connected with the control unit; it has the input of the line 5 and the clock input of the ADC 1. The device operates as follows. The first correlated electrical signal V is fed to the input of the ADC 1, the second correlated signal U is fed to the inputs of keys 2, DAL 1 converts the analog signal to the dual code G а 2 4 -, .. ,, + a, 2 - where a- is the coefficient determining the presence of a signal at the i-th output of the ADC; a Oh, if there is no signal, a; 1, if there is a signal, 1 1,2,. ,,, n is the number of output A Each of the keys 2 opens with a pulse from the corresponding output of the ADC 1 and passes the second correlated signal to the input of a point light source 3. The point sources of light 3 emit light pulses, the amplitude kaJK of which is proportional to both the power of the point light source 3 and the input electrical signal. Consequently, the luminous flux Fj emitted by the i-M light source 3 under a given condition that the power of each subsequent point source is W | twice the previous point source of light, determined by the expression W; -0 К2 where K is the coefficient of proportionality, the power of the i-источника source is the total luminous flux behind lens 4 is equal to the sum of the luminous fluxes from the included light sources 3 F i: F - U - Ki : -a; -2 U, .i, -K. “Thus, the energy of the light flux is proportional to both the first correlated signal U j and the second correlated signal U. The charging packet passing from the previous electrode of the CCD 5 to the next is summed with the charge packet arising from this electrode B due to accumulation of yes, under the action of light, between the successive shear pulses coming from the output of the shear pulse generator 7. As a result of this summing up, a charge accumulates under the output electrode of the linear CCD 5, equal to the sum of charge packets from all storage cells of the device, i.e. the integration of the charge will be carried out. Therefore, the signal at the output of the CCD 5 is proportional to the integral of the product of the input electrical signals, i.e. proportional to the required correlation function. Formula of the invention. An optoelectronic correlator containing a source of light and a photosensitive line of devices with charge coupling placed in an opaque case, and a generator of shear pulses, the output of the generator of shear pulses connected to the control input of the line of devices with a charge link, characterized in that, in order to improve accuracy, an analog digital converter, n electronic keys and a cylindrical lens are introduced, the light source being designed as a line of point light sources, orthogonal to the line of devices with charge coupling and a cylindrical lens placed at one of the focuses, which is placed between the line of point light sources and the line of charge coupling devices, with the output of each bit of analog-digital 771534 the converter is connected to the control input of the corresponding key, the output of each of which is connected to the corresponding source of the array of point light sources, the radiation power of each of which is twice the radiation power of the previous one, the output of the shear pulse generator is connected to the analog input of the analog-digital converter, the input of which is the first information input, the information inputs of the electronic keys are the second information 5 entrance to the correlator of the torus.