SU336793A1 - IN DIGITAL CODE - Google Patents

Description

The invention relates to the field of measurement technology and can be used in studies of the processes of nuclear physics, biology, and other fields of science and technology.

Known devices allow digitizing single or periodically repeated time slots.

However, it is often necessary to solve the problem of measuring the time intervals between pulses of a series, and their magnitude is generally different. The problem can be solved with the use of oscilloscopes, but the measurement accuracy is low. In addition, the processing of the received information causes hindrances, in particular, due to the inconvenience of entering it into the computing machine.

The purpose of the invention is to provide the possibility of continuous conversion into a digital code of time intervals between pulses at various values of these intervals and simple input of information about time intervals into a digital computer, as well as simplifying the device and increasing the accuracy of the conversion.

The current outputs of the trigger, operating in the counting mode and switching from the input pulses, are pulsed from a generator of a calibrated frequency. Impulses

The end of the conversion of each time interval into a digital code, by which information from the counters to the memory is read, is generated from the input pulses.

In the drawing, paragraph 1b is a block diagram of a time converter into a digital code.

The device contains a calibrated frequency generator 1, the output of which is connected

with coincidence schemes 2 and 3; the outputs and x are connected respectively to the inputs of the counters 4 and 5.

The outputs of the counters 4 and 5 are connected to the inputs of the storage device 6. The second

the inputs of the coincidence circuits 2 and 5 are connected to the "single and" zero outputs of the control trigger 7, and the third inputs of these circuits are connected to the "single outputs of the enable trigger 8, the inputs of which are connected to the outputs of the circuits

matches 9 and 10. The inputs of circuits 9 and 10 are connected to the counting input of control trigger 7, to the output of the shaping amplifier 1} and to the input of delay line 12. The second inputs of coincidence circuits 9 and 10 are connected to the output of coincidence circuit 13 and 14. The second input of the matching circuit 13 is connected to the "single control trigger output 7, and the second input of the matching circuit 14 to the zero control trigger output 7. The output of the matching circuit 13 is connected to the memory 6 and through the delay line 15 to the input "Installation About Counter 5. Out The coincidence circuit 14 is connected to the storage device 6 and, via delay line 16, to the input “Installation About counter 4.” The device operates as follows. Before starting measurements, an external signal is set to "O triggers and device counters (the installation circuits in" O are not shown in the drawing). The measurement starts when the Start signal arrives on the device, which opens the coincidence circuit 10. The first incoming input and M1pool, ss, formed by the driver / amplifier, passes through the coincidence circuit 10 and sets the 1 trigger trigger 8 and the control trigger 7, with the result that resolving potentials arise at the two inputs of the coincidence circuit 2. The pulses from the calibrated frequency generator through the coincidence circuit 2 are fed to the counter 4 and counted by it. The second input pulse sets the control trigger 7 to "O", and the pulses from the calibrated frequency generator through the matching circuit 3 arrive at the counter 5 and are counted by it. The second input pulse delayed by the transient time in the control trigger 7 when its state is measured passes through the coincidence circuit 14, since at its second input the resolving potential acts from the zero output of the control trigger 7, and n-records the contents of M 0. of counter 4 into memory 6. This same pulse, delayed by a delay line of 16 pa, is sufficient time to rewrite the contents of counter 4 into a memory &, sets counter 4 to “O. The third pulse sets the control trigger 7 to "1", which starts counting the pulses from the calibrated frequency generator by the counter 4. The third pulse also overwrites the contents of the counter 5 into the memory 6. When the next pulse of the next pulse arrives, the control trigger 7 changes state and pulses from the generator of the calibrated frequency are counted by 4 times 1 cc (TCHIKA1M1I 4 w 5. Since the trigger of control 7 is in each state for a period of time, the time between By digital pulses, digital codes read from counters 4 and 5 into a storage device are proportional to the time intervals between the pulses.The information is copied from one counter to the storage device while another counter is running. The time conversion to digital code ends when the device enters The signal "Stop. The next input pulse passes through the coincidence circuit 9 and sets the trigger switch 8 to" O. The inhibitory potential from the "single output trigger on 8" closes the matching circuits 2 and 5. Gating the start and stop of the conversion with input pulses is taken to prevent incorrect results from being written to the memory at the beginning and at the end of the conversion. The "Stop" signal can be generated, for example, by filling a specified storage array, after a certain time, etc. Thus, the proposed device allows to measure the time intervals between pulses with high accuracy while continuously following the pulses. The number of belt spans 1B, which can be measured in one measurement cycle, is limited only by the storage capacity. The accuracy of the measurement depends on the size of the counters and the stability of the calibrated frequency generator. The subject of the invention is a time code converter π a digital code comprising a calibrated frequency generator and a driver amplifier, the output of which is connected to the storage device through the delay line and the first two matching circuits, and through the second two matching circuits the second inputs of which are connected to the terminals Stop and Start , - with triggering trigger, characterized in that, in order to increase accuracy, two counters are introduced into it, a control trigger and additional matching schemes and hold lines, whose inputs are connected with the outputs of the first two matching circuits, and its outputs with the inputs “Installation About Counters, the outputs of the counters are connected to a storage device, and the inputs are connected to the outputs of additional matching schemes, the first inputs of which are combined and connected to a calibrated frequency generator, the second inputs are connected to the trigger outputs control, the input of the latter is connected to the output of the amplifier maker, and the third inputs are combined and connected to the output of the enable trigger.

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