SU1029414A1 - Pulse counter - Google Patents

Abstract

PULSE COUNTER, containing remote switches with switching groups of contacts, with turn-on and cut-off windings, a diode is connected to the circuit of each of which in the forward direction relative to the input pulses, the beginnings of the windings of each remote switch, except that in order to increase the capacity of the counter, the beginning of the winding circuits of the first remote switch are connected to the bus of odd input pulses, the beginning of the winding circuits of the remote switches, from the second on the last but one, are connected to the bus of even-numbered pulses through serially connected closing contact of the previous remote switch and disconnecting contacts of all remote switches preceding it, the beginning of the switching winding circuit of the last remote switch is connected to the terminal of even-numbered pulses through serially connected closing contact of the second last remote switch and disconnecting contacts of remote switches preceding it, end The chains of each of the windings of the remote switches, from the first to the last but one, are connected to the end of the identical winding circuit of the subsequent remote i switch through its normally open contact and to the end of the opposite winding circuit (L through its closing contact; the end of the winding circuit of the last remote switch is connected to the common bus .

Description

Yu

with

four

4; 2 The invention relates to a pulse technique and can be used in computing devices and control systems. A binary pulse counter is known, comprising a memory relay, a switching relay, a control relay and a control relay. The disadvantage of this counter is its complexity 1. A reversible counter is known. It contains remote switches, diodes, a control relay and a reverse relay. The disadvantage of this counter is small capacity, numerically equal to the number of counting relays 2. The purpose of the invention is to increase the capacity of the counter. This goal is achieved by the fact that in a pulse counter containing remote switches with switching groups of contacts, with turn-on and cut-off windings, a diode is connected to the circuit of each of which in the forward direction relative to the input pulses, the beginnings of the windings of each remote switch, except the last, are combined , the beginnings of the winding circuits of the first remote switch are connected to the bus of odd input pulses, the beginnings of the winding circuits of the remote switches, from the second to the penultimate one, under Connected to the bus even input pulses through the serially connected closing contact of the previous remote switch and disconnecting contacts of all remote switches preceding it, the start of the switching winding circuit of the last remote switch connected to the bus even input pulses through the serially connected closing contact of the second to last remote switch and disconnecting contacts of the remote switch preceding it, the end of the circuit of each of the windings d The first to last but one switch is connected to the end of the like winding circuit of the subsequent remote switch through its normally open contact and to the end of the opposite winding circuit through its closing contact, the end of the turn on circuit of the last remote switch is connected to a common rail. The drawing shows a schematic diagram of a pulse counter. The pulse counter contains the first remote switch 1 with contacts - closing 2, opening 3 and switching 4; the second remote switch 5 with contacts - closing b, disconnecting 7 and switching 8 of the first switching group of contacts, with contacts - closing 9, disconnecting 10 and switching 11 of the second switching group of contacts, with contacts - closing 12, disconnecting 13 and switching 14 of the third switching group contacts; the third remote switch 15 with contacts - closing 16, opening 17 switching 18 of the first switching group of contacts, with contacts closing 19, disconnecting 20 and switching 21 of the second switching group of contacts, with contacts - closing 22, disconnecting 23 and switching 24 of the third switching group of contacts; fourth remote switch 25 with contacts - closing 26, opening 27, switching 28 of the first switching group of contacts, with contacts - closing 29, opening 30, switching 31 of the second switching group of contacts, with contacts - closing 32, opening 33, switching 34 of the third switching group contacts; a fifth remote switch 35 with contacts — closing 36, opening 37 and switching 38 of the first switching group of contacts. In addition, the pulse counter contains diodes 39-48, an odd-numbered input pulse bus 49, a bus of 50 even input pulses, and a common bus 51. The figure shows the proposed counter, in the initial state. The counter works as follows. The first input pulse, received via bus 49, causes switching on of switch 1, since the end of its turn-on winding circuit is connected to common bus 51 via serially connected contacts 10, And, 20, 21, 30, 31, 37 and 38, and the end of winding circuit The disconnect is disconnected from the common bus 51 by the closing contact 36. The input pulse enters through the winding of the switch 1, diode 40 connected in the forward direction relative to the input pulses, and the serially connected contacts 13, 14, 23, 24, 33 and 34 to the ends of the windings select switches 5, 15 and 25, but not They are affected by counter-switching of the corresponding diodes 42, 44 and 46. When switch 1 is turned on, its closing contacts 2 and 4 are closed. The second input pulse, coming through bus 50, passes through closed contacts 2 and 4 at the beginning of the windings switch 5 and causes it to turn on, because its turn-on winding is connected to common bus 51. This changes the state of contacts 8, 11, 14, preparing the conditions for normal operation of the counter in subsequent cycles. The passage of the input pulse through the winding of the disconnect switch 5 and the diode 42 to the windings of the selector switches 1, 15, 25 is prevented by colliding diodes 40, 44 and 46.

The third input pulse enters the bus 49 at the beginning of the winding circuits of the switch 1 and causes it to return to its original state, since the end of the winding its end circuit is connected to the common bus 51 via contacts 9, 11, 20, 21, 30, 31, 37 and 38 The contact 4 returns to its original state. The input pulse passes through the turn-on circuit of switch 1, but does not affect the state of the other switches due to the on-off diodes.

The fourth input pulse enters through the contacts 4, 3, 8 and b at the beginning of the winding circuits of the switch 15 and causes it to turn on, because the end of its turn-on winding circuit is connected to the common bus 51.

Further, the processes occur in a similar manner.

Each odd pulse causes the remote switch 1 to switch, each even pulse to one of the switches 5, 15, 25, and 35. This switches the switch that follows the switch with the smallest measure from the set of switches that are in the on state. The specified operation algorithm corresponds to the reflected binary code, which is a special case of the binary code. The capacity of the counter is equal to 2 (N is the number of remote switches in the counter).

From the description of the meter circuit, it is also clear

that in series with each of the windings of each switch is turned on the same. The total number of contacts is numerically equal to W-1. In this case, the voltage drop across the contacts is the same. for all switches. This allows the restriction on the number of bits and, consequently, on the capacity of the counter, to be removed.

The use of the proposed scheme allows to increase the capacity to the pulse counter. Compared with the prototype with

the same number of remote switches in times. So, with N 10 K with “100.

Claims (1)

A PULSE COUNTER containing remote switches with switching groups of contacts, with on and off windings, a diode is included in the circuit of each of them in the forward direction relative to the input pulses, the beginning of the winding circuits of each remote switch, except the last, are combined, characterized in that, with the purpose of increasing the counter capacity, the beginning of the winding circuits of the first remote switch are connected to the bus of odd input pulses, the beginning of the winding circuits of the remote switches, from second to - the last one, connected to the bus of even input pulses through the serially connected make contact of the previous remote switch and the disconnect contacts of all the remote switches preceding it, the beginning of the winding circuit of the last remote switch is connected to the bus of even input pulses through the serially connected make contact of the penultimate remote switch and disconnect the contacts of the remote switches preceding it, the end of the circuit of each and From the windings of the remote switches, from the first to the penultimate, it is connected to the end of the same-name winding circuit of the subsequent remote switch through its opening contact and to the end of the opposite-winding circuit through its make contact, the end of the last winding switching circuit of the last remote switch is connected to a common bus. • 9P