SU864538A1 - Device for tolerance checking - Google Patents

Description

The invention relates to automatics and measuring equipment and can be used in test and measurement systems for various purposes. A frequency threshold comparator is known that contains three pulse generators, a counter, a generator, two groups of gates, a group of OR logic elements, a sign maker, two sets of threshold codes, an input signal bus, and three buses of output signals. The sign generation unit consists of a trigger, counting triggers, and a logic element. AND C The disadvantage of this device is low reliability of operation. The purpose of the invention is to increase the reliability of work and the expansion of functionality. The goal is achieved by the fact that in the tolerance control device containing a reversible counter, the first input of which is connected to the output of the reference part generator, the second input is connected to the first input of the sign-forming unit and through the first pulse shaper to the input source, the second pulse shaper, whose input connected to the output of the first driver, and the output is connected to the second input of the block of formation of the sign, three outputs of which are connected to the output buses, a group of elements AND whose outputs Connected with the inputs of the element OR, the code setting block, entered a group of decoders, the inputs of which are connected to the corresponding information outputs of the reversible counter, and the outputs are connected with the first inputs of the group of elements AND, the second inputs of which are connected to the control buses, and the output of the logic element OR connected to the third input of the sign generation unit, and the third and information inputs of the reversible counter are connected respectively to the output of the second driver and the outputs of the code setting block. The drawing shows a block diagram of the device tolerance control. The device comprises a first pulse shaper 1, a sign generation unit 2, a reversible counter 3, a second pulse shaper 4, a reference generator 5, a code setting block b, a group of decoders 7, a group of logic elements 8,

ohmic element 9 or. The sign forming unit 2 consists of trigger 0, three counting triggers 11-13 and the ohmic element 3.4 I.

The input of the first shaper 1 of the pulses is connected to the source of the input signal, and the output is connected to the first input of the shaper 2, the second input of the reversing meter 3 and through the second shaper of 4 pulses to the second run of the sign-forming block 2. the outputs of which are connected to the output tires, and to the third input rever-. sive counter 3, the first and informational inputs of which are connected respectively to the output of the generator

5 reference frequency and block outputs

6 sets the code and the information outputs are connected to the corresponding inputs of the group of decoders 7, the outputs of which are connected to the first inputs of a group of logic elements 8 And the second inputs of which are connected to control buses, the outputs connected to the inputs of the logical element E OR, the output of which is connected to the third input of the block .. 2 sign formation. The first outputs of the counting triggers 11 and 12 and the output of the logical element 14 AND, the incoming

in the block 2 of the formation of the sign, connected to the tires of the output signal, and the inputs of the logic element 14 And connected to other outputs of the counting triggers 11 and 12, the first in; codes of which and the first inputs of the trigger 10 and the third counting trigger 13 are paired and connected respectively to the first to the second inputs of the block forming the sign; The second input of one of the indicated counting flip-flops 12 is connected to the output of the third counting flip-flop 13, the second inlet of which is connected to the second input of the first counting flip-flop. 11 and connected to the trigger output 10,. the second input of which is connected to the third input of the third counting trigger 13 and is connected to the third input of the nak formation unit.

The device tolerance control works as follows.

To the information inputs of the reversible counter 3 from the outputs of block 6, the code is given; an additional code of the number N 7. corresponding to the middle tolerance field. The value Nf is determined from the expression. ", Where

TCV period of pulses following the middle of the tolerance field.

Signals in the form of electrical oscillations, the frequency f of which is to be monitored, are fed to the input of imager 1. The latter generates narrow square pulses with a follow frequency equal to the frequency of the input oscillations.

The impulse appearing at the output of the imaging device 1 at some time point arrives at the installation input of the reversible counter 3 and at the counting inputs of the counting flip-flops 11 and 12 of the sign generation unit. With

This reversible counter 3, operating in the addition mode, is set to its original state, the counting flip-flops 11 and 12 of the sign forming unit are in the state corresponding to the trigger state 10 and the counting flip-flop 13. The falling edge of the pulse formed by the shaper 4, the trigger 10 and the counting trigger 13, the sign generation unit 2 is set to the zero state. At the same time, the pulse is copied from the block 6 for setting the code to the reversible counter 3. Each decoder 7 is set to an additional code corresponding to its upper threshold. In the process of counting the pulses of the generator 5 by a reversible counter, the decoders 7 sequentially allocate a number of its 5 code combinations and form pulses at the output. The impulse to the input of the logic element 9 OR comes from the decoder through the open operation signal from the control bus Q the logical element I. Thus, the first pulse formed at the output of the decoder 7 corresponds to the upper threshold of operation fg. The impulse through the logical element 9 5 OR is fed to the third input of the sign generation unit 2. In this case, the trigger 10 of the latter is set to one state, and the counting trigger 13 does not change its state, because until the appearance of this pulse, its control input receives a zero signal from the output of trigger 10.

Claims (1)

At the moment of overflow of the counter 3; the latter is put into deduction mode. If such an amount of pulses arrives at its input before the appearance of the second pulse of the imaging unit 1, that a pulse is again generated at the output of the interrogated decoder, 0 the counting trigger 1J of the sign forming unit 2 is set to one because its control input receives a single signal c trigger output 10. The total number J of generator 5 pulses received at the input of the reversible counter 3 by the time of the formation of the second pulse at the output of the interrogated decoder is equal to the lower trigger threshold. If the monitored frequency f0 is less than the lower threshold of the triggering threshold, before the appearance of the second pulse at the output of the imager, the polled decoder generates two pulses switching trigger 10 and 5 of the counting trigger 13 into one state. The second impulse from the output of the former 1, arriving at the counting inputs of the triggers 11 and 12 of the block 2 of the sign, will establish the latter, also in a single state. The signal appearing at the output of the counting trigger 12 corresponds to the result of the comparison Less. If the monitored signal is within the specified thresholds; those. f, then the decoder generates only one pulse, which will switch to the trigger one state 10. Then the pulse from the driver 1 sets the trigger 11 to one, and the trigger 12 to the zero state. The signal appearing at the output of logic element 14 corresponds to the result of the comparison Norm. If f y. more than f in r, the decoder does not generate a single pulse until the second pulse appears at the output of the driver, and the trigger 10 and the counting trigger 13 of the sign forming unit 2 remain in the initial state. In this case, after the appearance of the second pulse at the output of the former 1, the triggers 11 and 12 will also be in the zero state. The signal appearing at the output of the counting trigger 11 corresponds to the result of the comparison. Thus, the comparison of the current value of the signal relative to the zone of allowable values is carried out. once before the next monitoring cycle of the polled signal. The analysis of the signal is carried out by a single decoder and, therefore, the circuit solution of the device is much simpler and its reliability is higher. The tolerance control device is invariant to signal control methods, i.e. it provides tolerance control both over the period of the signal under study (this case is described when the device is operating) and when monitoring the signal for a fixed measurement interval. In the latter case, G., the input signal bus is connected to the counting input of the reversible counter and the output of the measuring range generator to the input of the first pulse generator. In this case, the limit signals at the output of the formation / sign block are inverted. The introduction of a group of decoders and new connections into the tolerance control device allows to increase its reliability and expand its functionality. Claims An admission control device comprising a reversible counter, the first input of which is connected to the output of the reference frequency generator, the second input connected to the first input of the sign forming unit and through the first pulse shaper to the input source; lirova. pulse pulses, the input of which is connected to the output of the first shaper, and the output is connected to the second input of the sign-forming unit; three outputs of which are connected to output buses, a group of elements AND whose outputs are connected to the inputs of an element OR, a block of code instructions, characterized in that, in order to increase reliability and enhance functionality, a group of decoders are entered into it, whose inputs connected to the corresponding information outputs of the reversible counter, and the outputs are connected to the first inputs of a group of elements AND, the second inputs of which are connected to control buses, and the output of the element OR is connected to the third input of the unit sign, and the third and informational inputs of the reversible counter are connected respectively to the output of the second shaper and the outputs of the code setting block. ). , Hoflfiu