SU790351A1 - Relay reversible binary counter - Google Patents

Description

The invention relates to automation and computer technology and can be used in control systems and regulation of automatic control, communication devices.

Known binary relay counter containing binary relay elements by the number of bits of the counter, fed through individual trigger circuit fl].

The disadvantage of this counter is the large number of contacts, which reduces the reliability of the device and complicates it.

Also known is a reversible binary counter, containing in each category of the counter a dynistor, relay, diodes 12].

Its disadvantage is complexity due to the large number of contacts connected in series and the low reliability of functioning.

The purpose of the invention is to simplify the device and increase the reliability of operation.

This goal is achieved by the fact that in a relay reversible binary counter containing an electromagnetic relay in each discharge, the winding of which is connected to the junction point of the dynistor cathode and one of the contacts of the closing contact group of its relay, and diodes, a resistor and capacitor are introduced into each of the discharges , in all categories except the first one, the input bus is connected through the NC contact of the switching contact group of the newly introduced control relay, the contact of the switching contact group of the relay In the first category, the input bus is connected to the cell input through the first diode, in all the discharges one of the capacitor plates is connected to the discharge terminal and the first diode to the cell input is connected to the opening contact of the switching contact group of the relay of the previous discharge the positive bus of the power source, where the dinistor anode is connected, and the other 25 lining is connected to the dinistor cathode, which is connected through the resistor to the cell input, which through the second diode connected to another contact of the closing contact body * 30 ps of the relay of its category ..

The drawing shows a schematic diagram of a device.

A four-digit reversible binary counter contains an input bus 1 connected through the disconnecting contacts 2-1-2-3 of the switching group of the control relay, the closing contact of the switching contact group 3-1-3-3 of the relay of the previous discharge and the diode 4-1 -4-4 to the input of the counter cell .. Each of the counter cells contains an electromagnetic relay 5-1-5-4, the winding of which is connected to the common connection point of the cathode of the dinistor b-1-6-4 and one of the contacts of the closing contact group } ^ 7-1-7-4 relay 5-1-5-4 of its category. One of the capacitor plates 8–1–8–4 is connected to the anode of the dinistor 6–1–6–4 and with the plus bus of the power supply, and the other plate is connected to the second contact of the closing contact ^& Troupe 7–1–7–4 and through the diode 9–1–9–4 to the cell input, which is connected to the relay coil 5–1–5–4 through a resistor 10–1–10–4. The device outputs are marked as * 11–1–11–4, 25

The device operates as follows.

When applying to the power meter, all relays are de-energized, capacitors 8-1—8 “4 are charged to the supply voltage. 30 When the counter is working in direct code, the first pulse, through diode 4-1, the input of the first counter cell is received. A current flows through the resistor 10-1 and the winding of the reed 5-1, which is 35 less than the relay operation current. At the end of the first pulse, a high voltage is applied to the dinistor 6-1; equal in magnitude to the sum of the EMF of the self-induction of the relay coil and the supply voltage. The dinistor 6-1 turns on, the relay 5-1 is activated, closing its contacts 7-1 and 3-1 (code ‘0001 at the output, 11–1–11–4). On arrival of the second pulse, the dinistor

6-1 is shunted and locked. Current flows through ^ί resistor 10-2 and relay coil 5-2. Relay 5-1 is still operational, since the holding current flows through the circuit; the positive bus of the power supply - diodes 4-1 50 and 9-1, the contacts of group 7-1 - relay coil 5-1 - negative bus. The voltage on the capacitor 8-1 is equal to the direct drop on the diodes 4-1 and 9-1.

Upon removal of the second pulse, the winding 55 of relay 5-1 is ensured, since the self-induction EMF of the winding of relay 5-1 is applied to the practically uninfected capacitor 8-1, which, when charged, shunts the dinistor 6-1. At the same time, the dinistor 6-2 in the second cell is turned on and the relay 5-2 is activated, closing the contacts of groups 7-2 and 3-2 (at outputs 11-111-4, code 0010). The processes taking place in the second and subsequent cells are similar to those described in the first. The third pulse arrives at the first cell, at the end of it relay 5-1 is turned on (UN code at outputs 11-1-11-4). After the fourth pulse at the outputs, we have the code 0100 and) etc. When the counter is completely full, the subsequent pulse returns the counter to its initial state. To operate the counter in the reverse code, you must enable the controlled relay. In this case, at the first pulse, the signal arrives at the input of all cells and at the end of it the relay of all cells is turned on (code 1111 at the outputs). The second pulse arrives at the first cell and turns off the relay 5-1 (code 1110 at the outputs).

The process of turning off all relays with a reverse code is similar to turning on the same relays with a direct code.

Claims (2)

The drawing shows a schematic diagram of the device. A four-bit reversible binary counter contains an input bus 1, connected through the disconnecting contacts 2-1-2-3 of the switching group of the control relay, the closing contact of the switching contact group 3-1-3 3 relays the previous discharge and diode 4-1-4-4 to the input of the counter cell .. Each of the counter cells contains an electromagnetic relay 5-1-5-4, the winding of which is connected to the common connection point of the dynistor cathode 6-1-6-4 and one of the contacts closing contact rpyn 7-1-7-4 relay 5-1-5- -4 its About the discharge, One of the capacitor plates 8-1-8- is connected to the anode of the dynistor 6-1-6-4 and to the plus bus of the power source and the other plate is connected to the second contact of the closing contact group 7-1-7-4 and through a diode 9-1-9-4 to the input of the cell, which is connected to the winding of the relay 5-1-5-4 through a resistor 10-1-10-4. The device outputs are labeled 11-1-11-4. The device works as follows. When energized to the power meter, all relays are de-energized, capacitors 8-18 4 are charged before the supply voltage. When the meter operates in the direct code, the first pulse, through the diode 4-1, enters the input of the first cell of the meter. -1 A current flows that is less than the relay tripping current. At the end of the first pulse, a high voltage is applied to the dynistor 6-1, equal in magnitude to the self-induced EMF of the relay coil and the supply voltage. The dynistor 6-1 is turned on, the relay is activated 5-1, closes its contacts 7-1 and 3-1 (code 0001 at the output .11-1-11-4). By passing through the second pulse, the dynistor 6-1 is shunted and locked. The resistor 10-2 and the winding of the relay 5-2 current flows. Relay 5-1 is still in working condition, as the holding current flows through the circuit: power supply bus advantages — diodes 4-1 and 9-1, contacts of group 7-1 - relay winding 5-1 - minus bus. The voltage on the capacitor 8-1 is equal to the direct drop on the diodes 4-1 and 9-1. By removing the second pulse, the relay coil 5-1 is provided, since the self-induction EMF of the coil of the relay 5-1 is applied to a practically infected capacitor 8-1, which charges bypass the dynistor 6-1. At the same time, the 6-2 director in the second cell is turned on and the relay 5-2 is activated, the contacts of groups 7-2 and 3-2 are closed (code 0010 on outputs 11-111-4). The processes proceeding about the second and subsequent cells are similar to those described in the first. The third impulse arrives at the first cell, at the end of it the relay -1 is turned on (at the outputs 11-1-11-4 code OH). After the fourth pulse and the outputs we have the code 0100 and; etc. When the counter is completely filled, the subsequent pulse brings the counter back to its original state. To operate the counter in the reverse code, it is necessary to turn on the controlled relay. At the same time, the first pulse generates a signal at the input of all cells and, at the end of it, the relay of all cells is turned on (output code llll). The second pulse arrives at the first cell and turns off the relay 5-1 (at the outputs of 1110). The process of turning off all relays with a reverse code is similar to turning on the same relays with the direct code. Claims of the invention Relay reversible binary meter, containing in each section an electromagnetic relay, the winding of which is connected to the qpoint point of the dynistor cathode, and one of the contacts of the closing contact group of its relay, and diodes, in order functioning, a resistor and a capacitor are inserted into each of the bits, in all bits except the first one, the input bus is connected through the disconnecting contact of the switching contact group of the newly introduced control relay, The contact of the switching contact of the previous discharge relay contact and the first diode to the cell input; The contact of the switching contact of the control relay is connected to the break contact of the switching relay of the previous discharge; , in all bits, one of the capacitor plates is connected to the positive power supply bus, to which the dynistor anode is connected, and the other lining is connected to the cathode of the dynistor, which through p A resistor is connected to the input of the cell, which through the second diode is connected to another contact of the closing contact group of the relay of its own discharge. Sources of information taken into account during the examination 1. USSR author's certificate No. 301859. cl. H 03 K 25/00, 04.07,69. 2. USSR author's certificate number 364110, cl. H 03 K 23/03, 16.03.71. i .. I ,. | .-, // - f