SU1432343A1 - Method of measuring light intensity - Google Patents

Abstract

The invention relates to photometry and can be used in optoelectronic systems for receiving, converting, transmitting, processing and storing information, as well as in measuring systems, control systems. The purpose of the invention is to simplify the method and shorten the measurement time by implementing a sequential sampling of excited elements in only one memory block and sequentially accumulating the next number of excited elements in the first memory block. The speed of the method is increased due to the fact that the accumulation of the number of excited elements after each clock cycle is made during the recording of the intensity in the first memory block. 1 il.

Description

The invention relates to measurement technology and photometry and can be used in optoelectronic systems for receiving, converting, transmitting, processing and storing information, as well as in computer technology in the implementation of operational storage devices.

The purpose of the invention is to simplify the method and reduce the measurement time.

The drawing shows a block diagram of a device for implementing the proposed method.

A device for measuring the intensity of the luminous flux contains "Xi photodetectors 1 with parallel conversion of the luminous flux into durations of time intervals, memory block 2, which consists of xHp memory elements, a bar 3 external control signals, two registers 4 and 5 columns and rows of the block 2 memories, threshold element 6, counter 7, accumulating adder 8, and block 9 of division.

The elements of memory block 2 are arranged in the form of a matrix and connected to the corresponding outputs of the first 4 and second 5 registers, the last bits of the first 4 and second 5 registers are connected to the first, which allows them to operate in a ring mode, the read bus is connected to each element block 2 memory.

The measurement of the light intensity is carried out as follows.

Control bus 3 is supplied with control pulses. The elements of the group of photodetectors 1 serves the light flux. The magnitude of the light flux supplied to the elements of a group of photodetectors with its conversion into durations of time intervals is supplied to the elements of memory block 2. In the latter, control pulses (supplied to bus 3) dynamically memorize the duration of the slots in the memory block elements, sequentially sampling, counting and accumulating the number of excited memory block elements.

5 At the end of the sample, after the last control pulse, the result obtained in accumulator 8, as the sum of intermediate results, is divided by the number of photo elements Q of the sensitive matrix by means of dividing unit 9, thus obtaining the value of light intensity. Thus, the read and divide operations are reduced by the number of elements of the photodetector group for each memory block.

The proposed method for measuring the intensity of light is simplified by implementing a sequential sampling of excited elements in only one memory block and sequential accumulation of the number of excited elements. The operation of dividing the accumulated number of time intervals of a memory block by the number of elements of a group of photodetectors needs to be performed only for a given memory block. The application of the invention also allows

25 to reduce the measurement time, since the summation (or accumulation) of the number of excited elements after each clock cycle is performed during the recording of the image in the memory block.

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Claims (1)

Invention Formula A method of measuring light intensity based on discretization of the luminous flux of PCPs by photoreceivers, separating the output signals of a group of photodetectors with 35 parallel conversion into lengths of time intervals, applying external control signals and durations of time intervals to the memory block, characterized in that intervals. Through the first 4 Q simplification of the method and the reduction of time and the second 5 registers, the excited elements of the memory block 2 are sequentially sampled. In the accumulating accumulator 8, the intermediate result from the counter 7 is memorized, after which the counter 7 is zeroed and it is ready to count the number of excited elements of the memory block 2 at each control pulse. When applying each control pulse, the following operations are performed: dynamic memorization of the duration of time and measurements, in the memory block, external control signals are dynamically memorized of the duration of time intervals, during which sequential sampling is performed on two control signals, the counting and accumulation of the number of excited elements of the memory block, the total number of excited elements of the memory block is divided by the number of elements of the group of photodetectors and by the obtained result The intensity of light is determined. Gates in the elements of the memory block, sequential sampling, counting and accumulation of the number of excited elements of the memory block. At the end of the sample, after the last control pulse, the result obtained in accumulator 8 as the sum of intermediate results is divided by the number of photoQ elements of the sensitive matrix by means of dividing unit 9, thereby obtaining the value of light intensity. Thus, the read and divide operations are reduced by the number of elements of the photodetector group for each memory block. The proposed method for measuring the intensity of light is simplified by implementing a sequential sampling of excited elements in only one memory block and sequential accumulation of the number of excited elements. The operation of dividing the accumulated number of time intervals of a memory block by the number of elements of a group of photodetectors needs to be performed only for a given memory block. The application of the invention also allows 5 to reduce the measurement time, since the summation (or accumulation) of the number of excited elements after each clock cycle is performed during the recording of the image in the memory block. five 0 thirty Invention Formula A method of measuring light intensity based on discretization of the luminous flux of PChp by photodetectors, separating the output signals of a group of photodetectors with their parallel conversion into time interval durations, applying external control signals and time interval duration to a memory block, characterized in that simplify the method and reduce the time simplify the method and reduce the time measurements, in the memory block, external control signals are dynamically memorized for the duration of time intervals, during which sequential sampling, counting and accumulation of the number of excited elements of the memory block are performed by two control signals These are divided by the number of elements of the group of photodetectors, and the light intensity is determined from the result obtained.