SU684500A1 - Multichannel interpolation-type time interval meter - Google Patents

Description

The invention relates to information-measuring technology and can be used in experimental physics for analyzing time-domain distributions with high accuracy. A time interval meter containing a coding or interpolation type coding channel, digital storage device ij, common for all recorded stop pulses, is known. The disadvantage of it is low measurement accuracy. An interpolation meter is also known, which contains a time master oscillator, a system for measuring the uncertainty interval between a pulse and a pulse, a master sequence time, four interpolation units, a coarse time measurement system, an arithmetic device for combining the results of coarse and accurate measurements, and an information output circuit to an external device. accumulation and processing of data 2j. A disadvantage of the known device is the limited measurement accuracy. The aim of the invention is to improve the measurement accuracy. To achieve the goal proposed. The meter additionally contains an analog storage device, an analog signal switch, amplitude-code converter, coarse measurement counter, cxeh-iy coarse code reading with OR circuit, digital storage device - one of the analog signal switch inputs connected to the output of the time converter - start amplitude interpolation channel, the remaining inputs of the switch are connected to the outputs of the storage cells of the analog storage device, the inputs of which are connected to the outputs of the converters time is the amplitude of the stop channels and interpolation, the switch output of the analog signals is connected to the converter input; the amplitude is the code whose output is connected to the arithmetic unit, the outputs of two-stage pulse selection circuits and the successive sequence of interpolation stop channels are connected via OR circuits with the control input of a coarse code readout, the information inputs of which are connected to the outputs of the coarse measurement counter, and the outputs to the inputs of the digital storage device. The drawing shows the block diagram of the described time interval meter, which contains the pulse generator 1, the time of the driving sequence, the source of start and stop signals 2-4, two-stage selection scheme 5, the time of the starting impulses of the interpolation start channel, two-stage selection schemes 6-7 interpolation stop channel pulses time, time-amplitude converter 8, time-amplitude converters 9-10, analog storage device 11, coarse measurement selector 12, circuit OR 13, switch 14 analog signals als coarse measuring counter 15, a read circuit 16 coarse code, digital storage device 17, the arithmetic unit 18 combining the results of measuring the fine and coarse, information output circuit 19 to an external device and storage processing, the amplitude of the transducer - 2O code. The device works as follows. The start signal from source 2, specifying the beginning of measured time intervals, enters the input of a two-stage selection circuit 5 and starts the time-amplitude converter 8. The selection circuit 5 extracts from the timing of the generator 1 second second 3 pulse with a start signal, which stops The converter 8 also opens the coarse measurement selector 12 by deciding the arrival of the timing impulses to the coarse meter 15. At the output of converter 8, it forms a pulse whose amplitude is proportional to the time interval between the start signal and the pulse selected by the selection circuit 5. This pulse goes through the switch 14 for amplitude - "; one converter 2O is measured by it and the resulting code is fed to the arithmetic unit 18. A stop pulse, specifying the end of the first measured time interval, arrives at the start-input of the time-amplitude converter 9 and the input of the selection circuit 6. The pulse selected by the selection scheme is the time specifying the generator the torus is fed to the stop input of the converter time-amplitude 9 and through the OR circuit to the coarse code reading circuit 16, which transmits the current coarse meter counter code to the digital memory 17. The time interval between the stop signal and the selected selection circuit 6 pulse time of the master oscillator 1 is transformed by a time-amplitude converter into a pulse proportional to the amplitude that is stored in the cell of the analog storage device 11. This amplitude is stored in the cell of the memory device until the end of the first interpolation transformation amplitude code caused by the start-. signal. At the end of this process (or, if the first conversion is completed, immediately after the information storage unit from converter 9), the information from the first cell of the analog storage device 11 is transferred to the converter by means of a switch 14 to an amplitude code, where it is converted into a binary code and transmitted to the arithmetic unit. With the help of the latter, a rough and accurate measurement of the digital equivalent of the analyzed time interval is calculated according to the results of (-funded coh. Long. Raeti jj H) the result of measuring the interval between the start signal and the pulse selected by the selection circuit 5; pl, - the measurement result of the coarse time interval limited by the pulses of the selection circuits 5 and 6, which is transmitted to the arithmetic unit 18 from the digital memory 17; the measurement result of the time interval between The top signal and pulse of the selection scheme 9 After the completion of the operations of summing coarse and exact codes, the result is transmitted to the digital storage device 17 and then using the information output circuit 19 to the external device accumulation and processing. 56845 Similar to the above, the second, third and etc. Time intervals. Scope of the Invention A multi-channel interpolation time interval meter comprising a pulse-generator of a time-of-sequence, an interpolation channel, and Tervala uncertainty between the start - and the signal generator pulses the time sequence. consisting of a two-stage selection scheme and a time – amplitude converter connected to it, interpolation channels between intervals of stop signals and generator pulses, a time of the driving sequence, consisting of autonomous two-stage selection schemes and time – amplitude converters, a coarse measurement selector connected to time by a master oscillator, a two-step start-channel selection scheme and a rough meter, a digital storage device connected to an arithmetic A device and a data output circuit, as well as an amplitude transducer - a code connected to an arithmetic unit, characterized in that, in order to improve the measurement accuracy, an analog storage device is inserted in it with counting cells equal to the number of time intervals analyzed during a cycle , an analog signal switch, an OR circuit, and a coarse code reading circuit, with one of the analog signal switch inputs connected to the time converter output — the start-channel amplitude of the interpolation and the remaining inputs of the switch are connected to the outputs of the storage memories of the analog storage device, whose inputs are connected to the outputs of the time-to-amplitude stop transducer interpolation channels, the output of the analog-signal switch to the input of the transducer amplitude-code, the outputs of two-stage stop selection schemes channels of interpolation are connected via the OR circuit to the control input of the coarse code reading circuit, the information inputs of which are connected to the coarse meter counter outputs, and the outputs to the inputs digital storage device. Sources of information taken into account in the examination 1. USSR author's certificate Copyright Art. 343375, M. class. G- 04 F 1O / OO, 1968, 2. Journal 1 HEU Transactione fjrt Nucteati Sciendu 1973, AfS -20, No. 1, p. 242-245 prototype).