SU657404A1 - Device for tolerance checking of time interval duration - Google Patents

Description

(54) DEVICE FOR ADMISSION CONTROL

Claims (2)

DURATION OF TEMPORARY INTERVALS of the inhibit impunces, the generator of impulses reset, two one-shot and two epementa OR, the inputs of the first of which are connected to the input terminals of the device, and the output is connected to the inputs of the T-flip-flop and the first two effects And, the second inputs of the latter are connected to the T-trigger inputs , while the outputs of the first two elements are connected respectively to the 5th input of the RS-trigger and one of the inputs of the third E and I, connected by other inputs to the counter of impuses and connected to them through the driver to the impulse reset generator, to the first K - input of the T19-flip-flop, to the control inputs of the memory cells and to the input of the one-vibrator, the output of which through the second OR element connected to the input of the add-on counter There is a second impedance between the output of the second element OR and the pulse input of the decoder, the second input of which is connected to the output of the additional impuces counter, and the output of the coincidence circuit is connected to the second R - input of the RS flip-flop. FIG. 1 is a schematic diagram of the descriptive device; in fig. 2 4 - timing diagrams that show his work. FIG. 1 The following principles are indicated: A-scheme OR; 2 - T - trigger; 3.4 schemes And; 5 Z-trigger 6 key 7 - impedance generator of stable frequency; 8 - pulse counter; 9 coincidence circuit i) scheme I; And - cheap || rator; 12 - block of memory cells; 13 - display indication; 14 - Forms of the World Impuns of the Ban (FIZ); 15 reset pulse generator (GIS 16 additional impulse counter; 17.18 — one-shot; 19 OR circuit. In the initial state, the 2.5 trigger and the impedance counter 8.16 are set to zero. A low trigger 5 output signal prohibits impulse propagation frequency from the auto-generator 7 to the counter Q, the drop-in circuit 9 gives zero potential and blocks the K input of the K5 flip-flop 5. Then the first dba of the current pulse (plots 20 and 21. Fig. 2), limiting the 4.4 of the first to be controlled a time interval of duration T. These pulses are combined with the OR element 1 f ior 22) and are used to count the T-flip-flop 2 counting, the output voltage of the latter (e.g. plot 23 of fig. 2) and the potential of the element OR 1 to process the AND 3 and 4 elements. At their outputs, signals appear (plots 24 and 25 of Fig. 2), which in this case are identical with the input signals (plots of 20 and 21, respectively, 2). This coincidence indicates that the pulses at the inputs of the device appear alternately and, therefore, the system is not exposed to single pulses - interference. According to the positive differential of the output signal of the element I 3 (plot 24), a high potentiation (aniqja 26) is set at the single output of the trigger 5. The key 6 is cleared, and impulsively mounted, generated by the generator 7 (plot 27), begins to pass to the counter 8 (plot 28). When the counter is first triggered, the coincidence circuit 9 releases the R input of the trigger 5 and the trigger is overturned. For the circuit to function, it is necessary that the input pulses exceed the duration of the pulse period of the generator 7 (for example, tTi sruta). The filling process of the counter 8 and I71 is focused by plot 29 of FIG. 2. Let NCt) be the current value of the number accumulated by the counter 8, then when B satisfying the relation N,) N3 triggers the element AND 10 and forms temporary gates with a duration not exceeding 2f (plot 30 of FIG. 2) symmetrical with respect to the moment tr is n-TO, where tr and TO are, respectively, half the width of the tolerance field and the norm of the interval duration, aiTo is the arrival time of the positive front of the impedance from the IZ element. If the end of the monitored time interval is within the pop tolerance, i.e. T T, then the differential drop of the output signal of the AND 4 element enters the temporary gate and passes through the element AND 1O (Plot ZO-1) at FIZ 14, which produces a single impulse to prohibit the duration j (plot 31). The difference between this impulse returns trigger 5 to its original state. 5G launches GIS 15 (plot 32 of Fig. 2), setting the counter 8 to zero (plot 29) and transferring the first oa vibrator 18 to the generation mode impugnant T (vjura 34). It is necessary that the interval tTg be longer than the counter installation time 8 to zero. The output signals of the coincidence circuit 9 (plot -33) and the first one-shot, summed by the element OR 19 (shot 35), use the BTopolx start-up of the one-shot 17, forming a pulse of duration TG -Tr (36 of figure 2). By the positive differential of this pulse, the pulse counter 16 is triggered. The number recorded in the counter increases by one, the potentials are redistributed at the counter outputs and the negative differential of the output pulse of the second one-vibrator triggers the first channel of the de-encoder 11 connected to the first memory cell. The inhibit potential is present at the control inputs of the memory cell (plot 31), therefore, the state of cell 12 does not change, and the display node 13 contains information that the duration of the first controlled time interval lies within the specified limits. Then, the next pair of pulses goes to the device inputs. If the duration of the time interval limited by them lies in a segment (T + C), then the circuit functions in the manner described above, etc. Let now T Т T T (T (the signals of C and R, respectively, on the plot 21-1 of Fig. 3). In this case, the element And 10 still forms a temporary gate (plot 30-2 fig.Z), but the leading edge of the pulse (ji (ip {) does not pass to the FIZ. The contents of the counter 8 monotonically increase (plot 29-1 of Fig. 3 ) and when the counter overflows so that N (to) O. At the same time, the output of the circuit coincides with the SRI 9 and a potential of zero (plot 33-1) appears, which returns the trigger 5 to the initial state and turns off the counter 8 from generator 7, therefore, before the next pair of input pulses N (t) O arrives at the device. Through the element OR 19 (plot 35-1) the output signal of the circuit 9 It activates the one-shot 17. An additional counter 16 10 is activated, corresponding to the channel of the descrambler and the memory cell connected to it, since in this case FIZ 14 did not generate the inhibit potential (31-1). the time interval does not correspond to the specified limits. It is easy to see that the device functions normally even with an arbitrary alternation of monitored time intervals, some of which are within the tolerance range, and the other part of the output Audited beyond these limits. The operation of blocks 1-4 is as follows. Suppose that in the signal arriving at input A, there are impulses jr and ((plot 2Og-3 figure 4). The node of the elements And 3.4, OR 1 and trigger 2 converts the set of input signals (plots 20-3 and 21- 3) in the sequence of pulses presented in plots 24-3 and 25-3.Tj + T intervals, i each of which is not normal, will be monitored, If after this the input signals are sent directly to the 5th trigger input 5 and the input element I 1O, the result of the control will be positive, since in this case the pulses and sG to the measuring system y do not affect. Yanapiziru situation, you can make a conclusion about the presence of impulses-interference and their delay relative to input signals.The foregoing is illustrated by other plots of Fig. 4 (V, C, - interference pulses). Formula of the device 7 dp of time tolerance control intervals, containing a decoder connected via a block of memory cells to the display unit, and a serially connected RS flip-flop, a key connected to a stable frequency pulse generator, a pulse counter and a coincidence circuit, I quote It is because, in order to simplify and expand the functionality, three AND elements are added, an additional pulse counter, a T-flip-flop, a ban-shaper generator, a reset / a pulse generator, a ban-inhibitor pulse generator, a reset pulse generator, and one emitter OR, the inputs of the first of which are connected to the input terminals of the device, and the output is connected to the inputs of the T-flip-flop and the first two snement And, the second inputs of the last are connected to the outputs of the T-igger, with the outputs of the first two connectors And The corresponding 5-stroke 6m1 of the 5-trigger and one of the inputs of the third element I, connected by the remaining inputs to the pulse counter and connected through the driver of the inhibit pulses to the generator of the reset pulses, to the first t - the RS-trigger input, to the control memories of the cell ti and to the input of the innovator, the output of which through the sec 6 4 4 element OR, connected by the second input to the coincidence circuit, is connected to the input of the additional impulse counter ,. moreover, between the output of the second OR element and the pulse input of the decoder, the second input of which is connected to the output of the additional pulse counter, is connected to the second one-shot, and the output of the coincidence circuit is connected to the second R input of the RS flip-flop. Sources of information taken into consideration at the examination 1.Vlasov V.A. and others. Equipment for frequency and time measurements. M., Sov. radio, 197.1, p. 167-198. 2. USSR author's certificate number 414567, kb04 F 1O / 04, 1974.