SU680157A1 - Device for monitoring two pulsed generators - Google Patents

Description

(54) DEVICE FOR CONTROL OF TWO GENERATORS

Claims (2)

The impuls rate of the parameters of speed is the entry of elements into its composition. The purpose of the invention is to obtain control with high reliability of two non-synchronized pulse generators of the same frequency. t This is achieved by T v vt, which in the control device of two pulse generators, containing two pulse generators, a switching unit, an installation bus of the initial state, two fault signal generators, each of which consists of 1ent element And, the outputs of the first and second pulse generators are connected with the first inputs of the elements of the first and second formers of the fault signal, respectively, the installation bus of the initial state is connected to one of the inputs of the switching unit; The characteristics include an additional element AND, two elements NOT, an element 2И-OR, and four countable 1K-figger. In each malfunction signal conditioner, an installation bus of the initial state is connected to the second input of the And element, to the first input of the additional And element, and to the And inputs of the first and second counting 3 K-trters. The input of the first element is NOT connected to the first input of the element I, and its output to the second input of the additional element I, the output of which is connected to the input J of the third counting 3 K-flip-flop, inputs 3, K and C of which are connected to the right output of the first countable 3K-riggers, with input C of the second countable. 3 К -trigger and with inputs 3, К and С of the fourth counting 3 Ki-flip-flop, the input R of which is connected to the output of element I. The direct and inverse outputs of the third and fourth counting Q-flip-flops are connected respectively to the inputs of the first and second structures And the element 2I-OR, the output of which is connected to the entrance of K and through the second element is NOT with the input 3 of the second countable DK trigger. The outputs of the first and second pulse generators are connected respectively to the inputs 3, K, and C of the first counting QC triggers of the second and first formers of the fault signal. As a switching unit, two RS triggers are used, the inputs R of which are connected to the installation bus of the initial COCTOS SHI, and the inputs S with the inverse outputs of the second counting 3 K-flip-flops, corresponding to the BTTCTsyvvuHx fault conditioners. FIG. i presents a block diagram of the proposed device; in fig. 2 - interstitial diagrams of his work. The device contains a pulse generator 1 and 2, the formers 3, 4 of the fault signal and the switching unit 5. Ajf1y of the formers 3,4 contains the first element HE 6, the elements I 7, the counting J K riggers, the second element HE 13 and the element 2I- OR 14. Flei-switching unit 5 contains two RS triggers 15, 16. The device has an installation bus of the initial state 17 and two outputs 18 and 19. The outputs of the pulse generators 1 and 2 are connected to the first inputs of the elements And 7 drivers 3, 4 fault signals, respectively. In each of the formers 3, 4 of the malfunction signal, the bus 17 for setting the initial state is connected to the second input of the AND 7 element, to the first input of the AND 8 element and to the inputs R of the counting 3 K-riggers 9, 12. The input of the first element is NOT 6 connected to the first input element And 7, and its output - with the second input element IV, the output of which is connected to the input R of the counting 3 K-flip-flop 11, inputs 3 K, C of which is connected to the direct output of the counting 3-K-trigger 9, with the input C counting 3 K-flip-flop 12 and with inputs 3, K, C counting 3 K-flip-flop Yu, the input R of which is attached to the output of the element 7.Pr mile and inverse outputs of the counting 3 K triggers 10, 11. connected to the inputs of the structures AND element 2I-OR 14, the output of which is connected to the input K and through the second element NOT 13c input 3 of the counting 3 K-TpHrrepik 12. Generator outputs The impulses 1, 2 are connected respectively with the inputs 3, K, C of the countable 3 KGriggers 9 shapers 4, 3 of the fault signal. The installation bus of the initial state 17 is connected to the inputs 12 of the triggers 15, 16, the inputs S of which are connected to the inverse of the inputs of the counting 3 Ktrkgterov 12 of the corresponding drivers 3, 4 of the fault signal. FIG. 2, diagram (a) corresponds to the signals on the setup bus of the initial state 17, diagrams (b), (d) correspond to the outputs of the pulse generators 1, 2, diagram (c) corresponds to the signals at the output of the element 6 of the former 3, in the diagram ( e) shows the direct output of the counting 3 K -trigter 9, in the diagrams (e), (g) the yarn and inverse exits of the counting 3 K-flip-flop 10, and diagrams (h), (and) the direct and inverse the outputs of the counting 3 K-flip-flop 11, on the diagrams (k), (l) - the outputs of the elements 2I-OR 14 and NOT 13, respectively, on the diagram (m) - the inverse output of the counting 3 K-three in the diagram 12, and in the diagram (n) is the code of the device 18. Due to the fact that the drivers 3, 4 of the signal are not healthy, they are the same, the diagrams of operation in FIG. 2 shows only for the malfunction signal generator 3. The proposed device works as follows. When the pulses of the installation are received through the bus 17, the countable 3 K-flip-flops 9-12 and 15 are set to the zero state, and the output of the element 14 has a high potential. In the time interval to-t, the pulse generators 1, 2 operate synchronously, the counting trigger 9 recalculates the pulses of the generator 2, and the potential from the level to the level O at the direct output of the counting three hera 9 does not change the state of the scientific research institute of triggers 10 , 11 due to the fact that signals that vary from a logic level 1 to a level O or vice versa, are input to their inputs R. at this MONi-eHT. If, even due to the spread of delay elements, a change in the state of the trigger 11 occurs, then this does not trigger the trigger 12, since the potential changes at its inputs j and K occur after the arrival of a negative differential at the clock input C. Thus, the counting trigger 12 and therefore the trigger 15 do not change their state. In the time interval t -tj, the pulses from generator 2 operate & lio phase from pulses from generator 1. In this case, the trigger Yu changes its state when it arrives at its clock input C negative However, this does not lead to a change in the state of the counting trigger 12, since the change in the states at its inputs D K occurs after its negative voltage drop C arrives at its clock input C. In the time interval t, -t, when the generator pulse pulses are 180, the device functions as in the time interval to-l, .B the time interval tj-t. the pulses of the generator 1 are ahead in phase of the pulses of the generator 2. In this case, the device works in the same way as in the case of a time interval, with the only difference that the counting trigger 11 changes its state. In the time intervals and the pulse generator 1 ceases to function, results in blocking Xs, by the R input of the trigger U or 11 and, respectively, to the subsequent triggering of the counting trigger 12 and the RS trigger 15, at the output 18 of which logical potential 1 appears, indicating a violation of the impulse generator cos 1 2 At the control generator neiopravnosti signal generator 4 operates in exactly the same principle of the above given shaper 3 neisprvnosti signal. The direct output of the trigger 16 provides information about the intact or malfunctioning state of generator 2. Thus, the device allows you to control the operation of two non-synchronized and synchronized pulse generators of the same frequency with high confidence regardless of the variation of performance parameters of its constituent elements. Claim 1. Device for controlling two pulse generators, containing two wave pulses, a switching unit, a setting source of the initial state, two malfunction signal conditioners, each of which consists of an element, and the outputs of the first and second pulse generators are connected to the first the inputs of the elements AND the first and second fault conditioners, respectively, the installation bus of the initial state is connected to one of the inputs of the switching unit, characterized in that, in order to control students with high reliability of two non-synchronized pulse generators of the same frequency, an additional element AND, two elements NOT, element 2И-OR and four counting ECtriggers are entered into each malfunction signal generator, in each malfunction signal generator the initial state bus is connected to the second input element I, with the first input of the additional element I and with the inputs R of the first and second counting LC-triggers, the input of the first element is NOT connected to the first input of the element I, and its output is the second input of the additional element And, the output of which is connected to the input R of the third counting 3 K-flip-flop, inputs 3 K and C of which are connected to the direct output of the first counting E-K flip-flop, to the input C of the second counting .3 K-flip-flop and to the inputs E, K and C the fourth counting EK-flip-flop, the input R of which is connected to the output of the element I, the direct and current versions of the third and fourth counting D of the K-flip-flops are connected respectively to the inputs of the first and second structures AND of the element 2 connected to the input K and through the second element NOT to the input of the second estimated LC of the trigger. The outputs of the first to the second pulse generator are connected, respectively, with the inputs E, K and C of the first account 3 K-flip-flops of the second and first malfunction signal. 2. The device according to claim 1, characterized in that two PS flip-flops are used as a switching unit, the inputs R of which are connected to the bus of the initial state, and the inputs 5 are connected to the inverse1, 91 outputs of the second counting .3 K-flip-flops of the corresponding fault conditioners Sources of information taken into account in the examination 1. For the application of the Federal Republic of Germany No. 2440097, cl. I OZ 1 1/00 1976. 2..Avtor's certificate of the USSR N 4S39O4, CL, N OZ to 5 / ho, 1975.