SU472303A1 - Pulse average frequency meter - Google Patents

Description

The invention relates to automation and computing technology, in particular, is intended for use in radioisotope instrumentation, for example, in schematic radioistole densitometers and tomodinomers, where measurements are made by processing discrete information and the average frequency of the input pulses has an ecopotential dependence on the measured parameter

 + Lg. (1)

Known meters of the average pulse frequency, containing a series-connected circuit "And, a counter and a trigger, to the output of which and simultaneously to one of the inputs of the circuit" I connected a second circuit "And connected to the second input to a stable frequency generator, and its output connected to the second counter with indicator.

However, to obtain a result that is linearly dependent on the quantity to be measured, it is necessary to use special equipment.

The proposed device differs from the known one in that an adder is introduced into it, on one input of which the injected pulses are fed, a dololnitelny generator of ih-puls is connected to the second input, and the output of the adder is connected to one of the inputs of the "And" circuit, the output of which is

attached to the counter and trigger. This provides a measurement of the average frequency of output pulses, which have an exponential dependence on the parameter being measured.

Pa the drawing shows a block diagram of the proposed meter for the average frequency of the following pulses.

The meter contains a serially connected circuit “AND 1, counter 2 and trigger 3, to the output of which and simultaneously to one of the inputs of the circuit“ AND 1 a second circuit “AND 4 connected to the second input to the stable frequency generator 5 is connected, and its output is connected through the second counter 6 with indicator 7. The output of the applied adder 8 is connected to the second input of the “I 1” circuit, which with its one input is connected to the common input of the meter where the test impulses are fed, and an additional generator IMpulsov 9 is connected to its second input.

The meter works as follows. In the initial state and before the start of measurement, the impulses 2 and 6 and the trigger of control 3 are reset to the reset target (not shown). The input pulses through the pulse accumulator 8 and the circuit "And 1 are iodized to the pulse counter 2. In the accumulator of the pulses 8 with the input pulses, the pulses from the generator are fed (or removed) from the generator 9 fi fo ± fr + e -. (2) through the AND 4 circuit, the imiulus counter 6 iodizes pulses with a stable frequency / 2- After filling the imiuls 2 counter, control trigger 3 is thrown and overrides the AND 1 and 4 circuits. The volume of the pulse counters 2 and 6 and the frequency of the oscillator 5 are chosen so that when the number of input pulses equal to zero in As for the measured parameter, both counters are filled at the same time, and for any other value of the measured parameter, the average frequency of the input pulses will be small: e, i.e., pulse counter 6 will be filled first, and the result will be recorded in the HCAI at the moment the measurement cycle is stopped N, - -L / ,, / 0 ± / ,. + Ae where NZ and NQ are the volume of pulse counters 2 and 6. This function is monotonically growing, it has an inflection point (around which function (3) can be approximated with sufficient accuracy directly. By changing / g, you can get this the value of fo + / g, so that in the required range of parameter x, the dependence (3) is non-pyroximized directly, for example, with a range of changes from 0.1 to 1 and at 1.67, the iroximadi error of function (3) does not exceed 1% As the generator 9 can also be used generator 5, between which and in The house of the adder 8 includes a pulse counter with a variable conversion factor. If the background value of the average frequency of the input pulses is greater than the value needed for linearization, then instead of the adder of the pulses, you need to use a device that uses the impulses reiHepypa 9 from the input pulses. containing successively the “And, counter and trigger” scheme, to the output of which, and simultaneously, one of the inputs of the circuit “P is connected to the second circuit“ P, connected to the second an input with a stable frequency generator, and its output is connected via a second counter with an indicator, characterized in that, in order to measure the average frequency of the output pulses, which has exponential relevance to the measured parameter, an adder is entered into it, on one input of which the impulses under study are fed , an additional generator of pulses is connected to the second input, and the output of the adder is connected to one of the inputs of the circuit “P.

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