SU801260A1 - Shot duration failure-protected counter - Google Patents

Description

The invention relates to electric pulse counting devices. A counter with a crash trigger is known, containing removable bits, each of which is made on a dual-winding relay with self-holding / winding of which is diode-bridged, as well as containing separation diodes and thyristors ll. The disadvantage of this counter is the relatively low speed. Also known is a counter with fault fault, containing a spreader and counting bits, each of which contains a counting trigger, first and second failure protection elements, the first inputs of which are connected to the inverse output of the expander, and the output of the first failure protection element is connected to the installation input of the counting trigger of the same bit, the counting input of the counting trigger of each of the bits, except the first, is connected to the direct output of the counting trigger of the previous bit, and the counting input of the county trigger of the first bit is connected to the input of and an input counter spreader Failover 2j. The disadvantage of this counter with protection against failures is the relatively low reliability of operation, which is associated with the exclusion of information recorded by the counter when it fails in the supply circuits. The purpose of the invention is to increase the reliability of functioning. The goal is achieved by the fact that the counter with sshdit from failures, containing a dissipator and counting bits, each of which contains a counting trigger, the first and second elements of the sygits from failures, the first inputs of which are connected to the inverse output of the expander, and the output of the first protection element from Fault is connected to the installation input of the counting trigger of the same bit, the counting input of the counting trigger of each of the bits, except the first one, is connected to the direct output of the counting trigger of the previous bit, and the counting input of the counting trigger of the first This bit is connected to the expander input and the counter input with fault protection, the first and second elements AND, the first and second elements OR, the inverter, the remote switch and the resistor are entered into each of the bits.

the first inputs of the first and second elements I are connected to the forward output of the expander, the second inputs of the first and second elements I are connected respectively to the direct and inverse outputs of the counting trigger, the output of the second element I is connected to the first mouth of the first OR element, the second input of which is connected to the first input of the second OR element and the reset bus, the outputs of the first AND elements and the OR element are connected via the turn-on and off windings of the remote switch to the power bus, the output and the second input of the second element respectively nta OR are connected respectively to the reset input of the counting trigger and the output of the second failure protection element, the second input of which is connected to the switching contact of the remote switch, via a resistor with the single logic signal bus and via an inverter with the second input of the first failure protection element, and the closing contact of the remote The switch is connected to the logical zero bus. The drawing shows a block diagram of a meter with protection against failures.

The counter with failure protection contains a spreader 1 and a counting bit 2, each of which contains a counting trigger 3, the first 4 and second 5 elements of protection against failures, the first b and second 7 elements And, the first 8 and second 9 elements OR, the inverter 10 , a remote switch 11 and a resistor 12. The first inputs of the first 4 and second 5 failure protection elements are connected to the inverse output of the expander 1, and the output of the first failure protection element is connected to the installation input of the counting trigger 3 of the same bit. The counting input of the counting trigger 3 of each of the bits, except the first one, is connected to the direct output of the counting trigger 3 of the previous bit, and the counting input of the counting trigger of the first bit is connected to the expander input and the input 13 of the counter with fault protection, the first inputs of the first block and the second 7 elements And are connected to the direct output of the expander 1, the second inputs of the first 6 and second 7 elements And are connected respectively to the direct and inverse outputs of the counting trigger ji3, the output of the second element And 7 is connected to the first EML input of the first element OR 8, W swarm input coupled to a first input of the second OR gate 9, and a reset bus 14, the outputs of the first AND gate 6 and the element; This OR 8 is connected respectively via the turn-on and turn-off windings 16 of the remote switch 17 to the power bus, the output and the second input of the second element OR 9 are connected respectively to the reset input.

the counting trigger 3 and the output of the second failure protection element 5, the second input of which is connected to the switching contact 18 of the remote switch 11, via a resistor 12 with a single logic signal bus; 19 and through the inverter 10 with the second input of the first failure protection element 4 and the closing contact 20 of the remote switch 11 is connected to the bus of the logical zero 21.

The counter works as follows.

The reset signal received via bus 14 sets the counting triggers 3 to the zero state via the OR 9 elements, and also sets the remote switches 11 to the off state through the OR elements 8. The contacts of the remote switches 11 are open and therefore to the second inputs elements 5 of the protection against the failure of a logical unit signal through resistors 12, and the second inputs of the elements 4 protection against failure from the output of the inverter 10 - a signal of zero. Since the first inputs of elements 4 and 5 of the failure protection are signaled by a logical unit from the inverse output of the expander 1, the reset inputs of the counting triggers 3 have a logical signal that blocks the counting input and confirms the zero state. Therefore, the interference appearing in the circuit, for example, in the supply circuits, does not change the states of the counting triggers 3.

Claims (2)

After a counting pulse arrives from the input bus 13, a logical zero signal is generated at its leading edge by the expander 1 at its inverse output, through which the blocking from the counting triggers 3 is released and their operation is allowed. In addition, the expander 1 signal from its direct output allows information to be transmitted from the outputs of counting triggers 3 to remote switches 11. The triggering of counting triggers 3 is triggered on the falling edge of the input pulse, after which information can be taken from the counter. After the information is recorded, for example, the first counter of the counter, a logical unit signal appears at the forward output of the counting trigger 3, and all the outputs of the element 6 appear in the logical unit, and therefore winding 15 turns on and the remote contacts 18 and 20 turn on switch 11. After the expiration of the pulse expander 1 through the closed contacts 18 and 20, the input of the inverter 10 receives a logical zero signal and therefore the signal-blocking unit of the counting input is present at the installation input of the counting trigger 3 It should be noted that the duration of the expander pulse is determined from the ratio tex tp -, U (where tp is the duration of the expander; tgjj is the duration of the input pulse, the switching time of the counter trigger, the number of counter bits, the switching time of the polarized contact If in this state the supply voltage is turned off and then turned on again, then the blocking circuit has closed contacts 18-20 of the remote switch 11, the inverter the fault protection element 4, the counting trigger 3 of the first discharge and establish a single state, and all the other bits are at zero SET howling state of lockout circuit (resistor 12, the protection member 5 of SBO, the OR e). The proposed device is more effective compared with the known brand introduction of a remote switch, logical elements OR elements AND, a resistor and their interconnections, which allows to save the accumulated information during interruptions in the supply of power to the voltage. Claims of the Invention Counter with fail-safe protection, soda zsitsy spreader and counting bits each of which contains a counting trigger, the first and second elements of the protection against failures, the first inputs of which are connected to the inverse output of the expander, and the output of the first element of the protection against failures connected to the installation the input of the counting trigger of the same bit, the counting input of the counting trigger of each of the bits, except the first, is connected to the direct output of the counting trigger of the previous bit, and the counting input of the counting trigger of the first bit is connected to ohm dilator and the input of the counter with protection from failures, characterized in that, in order povlieni dostover-. functioning, each of the bits introduced the first and second elements AND, the first and second elements OR, the inverter, the remote switch and the resistor, the first inputs of the first and second elements AND are connected to the forward output of the expander, the second inputs of the first and second elements AND are connected respectively, with the direct and inverse outputs of the counting trigger, the output of the second element AND is connected to the first input of the first element OR, the second input of which is connected to the first input of the second element OR and the reset bus, the outputs of the first elements in AND and the OR element are connected via the windings on and off of the remote switch to the power bus, respectively; the output and the second input of the second OR element are connected respectively to the reset input of the counting trigger and the output of the second failure protection element, the second input of which is connected to the remote contact switch, through a resistor with a single logic signal bus and through an inverter with a second input of the first failure protection element, and a closing contact of the remote switch is connected to a logic-zero bus. Information sources. Taken into account during the examination 1. USSR author's certificate W 452074, cl. H 03 K 23 / 0.3, 1972. 2. Authors certificate of the USSR 552700, cl. H 03 K 21/30, 1975 prototype).