SU113563A1 - Quadrator - Google Patents

Description

Known squares for discrete-action computing devices, which are mechanical, electromechanical, or electronic systems, cannot be entered into a quad and receive values at the output in the form of the corresponding number of pulses.

The proposed quadrator allows input values to be entered in the form of the corresponding number of pulses, and the output is a number that is the square of the number of pulses entered in the quadrant.

A special feature of the described quadrator is that it is made in the form of two binary counters, one of which, triggered by impulses, controls the operation of the other counter, covered by feedback and connected to the output of the generator of pulses, by a gate. frequency through the gate valve .1st trigger connected through the delay line to the input of the first counter.

The drawing shows a block diagram of the quad.

The composition of the quad includes two BINET counters / and 7 /.

In the diagram, each digit of the counter is depicted in the form of a square, the arrows indicate the direction of the input and output signals. The digit facing the input arrow indicates the position to which the input signal can be assigned to the current digit of the counter. The digit against the output arrow indicates the state in which, or upon transition to which, the output signal occurs. LZ delay line has a delay time of less than one, Tini 2LZ. The counter / controls the counter // by means of heating, pulsed-gate valves A. The valve is open for the passage of a pulse when, for the corresponding discharge of the control counter, the state O of the constant-frequency pulse generator.

The period is followed by the pulses of the generator generator GI is selected from the ratio:

Т - - (2; с, „,„ ,, -1) Т.:, Where; L, .., „,. - the maximum value of the input value .v, Tx is the minimum time between two consecutive pulses on the quadr input.

H pulses from the pulse generator are fed to the input of the counter //

through valve B, controlled by trigger B. These pulses simultaneously are the output signal of the quadrant.

In the initial state of the quadrant, the counter / must have units in all bits, and in the counter // in the nerve discharge. The trigger has to be in state.

When iroku ivy pulse in the counter / set state 00000, the corresponding valves are opened. Then 1LZ impulse comes; sets the counter // to the state 111111. After that, the input | The impulse through 2ЛЗ transfers the trigger S to О, and from IcnepaTOpa the impulse GI passes one impulse to the output of the quad and into the counter 1L which is reset to well. At the same time, the last cell of the counter // establishes in the nerve discharge through the feedback circuit and places trigger B into position A. Thanks to this, the valve closes and the further arrival of the impulses from the GI is repainted before the next incoming input; pulse X.

Thus, at / rio.iy we read in L

The second input pulse will set 10000 in the counter / state, and in the counter //, the state 101111. After this, trigger C opens valve B in from the GI pulse generator three pulses and the output to the counter //. After these three pulses, the counter // is again reset to zero with the unit unref of the first discharge, i.e. 100000, and trigger B returns to nano 1 and stops the flow of pulses from the CG.

1 in a way when we get 4.

After the third pulse, the input / the counter / has the state 01000, and the counter // - the state 110111. To reset the counter // to the initial state, pulses are required, which also arrive at the output of the quadrator.

Consequently, rijn-i, iio.ty and y / -K5-i-5 are 9, etc.

From the above it can be seen that squared 1 makes it possible to perform mathematical operations of the form g /.

The maximum permissible charge .V is limited by the capacity of the counter /. The number of counter bits // should be one more.

The pulse quad circuit can be executed on various elements, radio waves, semiconductors, ferrites, etc.

1 per d. M with m and 3 about b and e and u

Quadrator for computing devices of discrete action, based on the representation of the square of the input value in the form of a sum, L1Y members of a series of consecutive odd numbers, so on, with the aim of entering into the quadrant and getting at its output .ticles in the form of two binary counters, one of which is triggered by impulses of the input variable, controls by means of the valves the operation of another counter covered by feedback and connected with its output to the output of the generator of pulses of a constant frequency s controlled by a trigger, bonded through a delay line to the input of the first counter.

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