SU1275450A1 - Device for checking passage sequence of signals - Google Patents

Abstract

The invention relates to automation and computing and can be used to create systems that control the sequence of commands and signals in various automated control systems and telemetry devices. The aim of the invention is to extend the functionality by providing control of arbitrary sequences. The device contains triggers 1, the element NOT 2, the elements AND-NOT 3, the inputs and outputs of the device, allowing to achieve the goal. 2 Il. with

Description

Rig .; The invention relates to automation and computer technology and can be used to create systems for controlling the sequence of command and signal passing in various automated control systems and telemetry devices. The aim of the invention is to enhance the functionality by providing control of arbitrary sequences. Figure 1 shows the functional diagram of the device; Fig.2 shows a timing diagram explaining the application of the device proposed. The device contains triggers 1, the element NOT 2, the elements AND-NOT 3, input 4 of the initial installation of the device, a group of 5 inputs of monitored sequences, a group of 6 outputs of the device. The device works as follows. The initial setup signal entering the initial setup 4 of the device, the device returns to its original state. At the same time, on the direct outputs of the triggers 1 are set to zero, and on the inverse - single signal levels. The controlled sequences come through the device inputs to the single inputs of the flip-flops 1 through the NOT 2 element (the first signal), as well as through (n-1) AND-NOT elements (the subsequent n-1 signals). The order of supplying monitored signals to the device inputs is as follows. The input element NO 2, the first one from the group of device inputs, must receive the first signal from the start of the cycle, the second input the second signal and so on to the n-th signal. However, the permission to record each subsequent signal occurs if all previous ones since the beginning of the cycle the signals. If any of the biplane is absent, for example, the kth, then the corresponding kth trigger is not installed in the one state, and as a result, the remaining (nk) triggers will not be set to one at the time of the end of the cycle including nth. The unit level at the inverse output of the nth trigger at the moment when the last nth signal passes through indicates that the sequence of the signals is not sequenced. Which of the signals is the first one, i.e. the location of the fault, says the first trigger with a single state on the inverse output, in our case it is the k-th trigger. The device also allows for clocking of signals that may appear more than once per cycle (Fig. 2). This is possible because if at one of the inputs of the elements AND-NOT 3 and a pulse is detected, it will not change anything until the resolution arrives from the previous trigger. Similarly, if the signal through the corresponding IS-NE 3 element, in the presence of a single resolution from the previous trigger 1, arrives at the installation input into the unit of the given trigger, in the single state already present, nothing is changed in the state of the triggers either. The order of connecting the signals to the inputs of the triggers and the number of triggers themselves are determined by what the task is for the device. Consider the order in which the signals are connected to a device using the example of signal timing diagrams in FIG. 2, and let it be necessary to determine the correctness of the order of the signals shown in diagrams 7-23. In this case, the approximate sequence of connecting signals (pulses) to the device inputs is indicated by numbers 7-23 in the diagram and for their control 17 triggers and 16 AND-NOT elements, one element NOT, are required. Sometimes the requirements for controlling the follow-up of signals are made less stringent; it is simply necessary to check the clocking of the signals (at least one) in a loop with partial control of the order. In this case, the first input of the device (see the diagram in Figure 2) is given a signal 7, the second signal 9 (in the diagram number 10), the third 15 (in the diagram number 11), the fourth signal 19 and 22 (in diagram 9), the fifth signal 21 (in diagram 12) and the sixth signal 23 (diagram 8). In this case, to check the presence of six signals, each of which can be represented by one or several pulses, and a partial check of the order of their followings requires only six triggers, one element NOT and five AND-NOT elements.

Claims (1)

Invention Formula A device for controlling the sequence of signaling of signals, containing n triggers, a NOT element, (n-1) AND-NOT elements, and the outputs of the AND-NE elements from the first to (n-1) -th are connected to the single inputs of the second to n trigger, respectively th, zero inputs of flip-flops from first to fifth, are connected to the input of the initial installation of the device, it is different from the fact that, in order to expand the functionality of the device by providing control of arbitrary sequences, the output of the element is NOT connected to the single input of the first three shooter, direct trigger outputs from the first to (n-1) -th are connected respectively to the first inputs of the AND-NAND elements from the first to (n-1) -th, inverse outputs of the trigger from the first to the n-th form a group of device error outputs, the input of the element is NOT and the second The inputs of the NAND elements from the first to (n − 1) -th are the inputs of the sequences to be monitored. fpuz.2