SU930386A1 - Shift register - Google Patents

Description

(5) SHIFT REGISTER

one

The invention relates to automation and may; to be used in the construction of automatic devices for various purposes, in particular, control systems for the process of sorting piece goods, such as timber in the forest industry. . A shift register is known, which contains memory relay cells and a code shift relay from one cell to another, equipped with a time for setting the capacitors and resistors creating the required delays for the code shift moments 13.

Its disadvantage is low reliability, since the required delay is unstable in it due to the inconsistency of the time parameters of the relays and capacitors. Reliability reduces the length of time the shift relay stays with the corresponding circuit under current.

The closest technical solution is a shift register containing memory cells made on a relay, the beginning of whose windings are connected to one of the lUMH power, the ends of the windings — each memory cell relay is connected to the input busbars via the break contacts of the next memory cell. with the closing contacts of the shift relay of the previous and subsequent memory cells, respectively, the other bus bus 10 through its own closing contacts of the relay, the memory cells are connected to the input terminals, respectively, one end of the winding relays The shift of the memory cell is connected in series through the 5 spreading contacts of the relay of this memory cell connected to another power bus, a capacitor and its discharge resistor connected by one of its terminals to one of the buses

20 meals 2.

Claims (2)

However, this register has low reliability, since an increase in the release time of the shift relay by 39, for example, weakening the contact springs over time or as a result of its appearance in the winding of short-circuited coils leads to the imposition of two shifted codes on each other (the code is distorted; Another reason for the reduced reliability is the large time the shift relay and the corresponding circuit are energized. The purpose of the invention is to increase the reliability of the shift register by eliminating the effect on the offset of the temporal information. and the time1 and the relay is energized. The goal is achieved by the fact that in the shift register containing memory cells, each of which is made on a storage element such as a capacitor, a passive element such as a resistor I on the relay, and the beginning of the windings of the first and second relays connected to one of the power rails, and the ends of the windings through the normally closed contacts of the third relay of the subsequent memory cell are respectively connected to the outputs of the shift register, and through their normally open contacts of the third relay The previous memory cell is connected to the inputs of the shift register and, through its normally open contacts, to a different litany bus, the start of the third relay's winding of each memory cell is connected via sequentially connected normally closed contacts of the first and Btpporo relays to the other power bus, one of the capacitor plates and One of the resistors of each memory cell is connected to one of the power rails, the other resistor output in each memory cell is through normally open and the contact of the third relay of the previous memory cell is connected En with a different capacitor plate and through series-connected normally closed contact of the third relay of the previous memory cell and normally open contact of the third rel of the next memory cell connected to the end of the winding of the relay of each cell: memory, and normally open contact of the third relay of each memory cell connected its leads to the beginning of the winding of the relay and the other power bus. The drawing shows an electrical diagram of the proposed shift register. The shift register is made in memory cells 1 and 2 (only the second and third memory cells are shown in the drawing). The memory cell 1 contains a relay 3 winding with contacts k vt 5, a relay winding 6 with contacts 7 and 8, contacts 9, 10 and 11 The relay winding is not shown in the drawing), the relay winding 12 with contacts, a storage element, for example, a capacitor 19 is passive an element, for example, a resistor 20. Cell 2 of memory contains a relay coil 21 with contacts 22 and 23, a relay coil 2 with contacts 25 and 26, a relay coil 27 with contacts 2832 (pins 28 and 19 are part of memory cell 1), a storage element, such as a capacitor 33, a passive element, such as a resistor 3, pins 35 and 36 (the relay winding is the drawing is not shown). The shift register works as follows. Before entering the first code, a relay is triggered (the winding is not shown in the drawing), which by its contacts 35 and 36 disconnects the capacitor 33, which is discharged through resistor 3. After returning this relay to its initial state from. The charge current surge relay 27 is activated and transfers the code from the input min to relays 21 and 2k. Due to the operation of relays 21 or 2, which by their contacts 23 and 26 go into memory mode, and contacts 22 and 25 break the main supply circuit of relay 27, its operation is not interrupted, since the indicated circuit is bridged by contact 32. Thus, the pulse time removed from pin 32, does not depend on the state of relays 21 and 24. When the relay 27 is actuated, its opposite contacts 28 and 29 disconnects from the source and discharges capacitor 19. After the relay 27 returns to its initial state, relay 12 triggers, which activates relay 3 or 6 and disconnects the corresponding relays in group 21 and 2k. As a result, the first code appears in the first cell 1 of the memory. The second code, in the manner already discussed, enters the relay groups 21 and 2tt, i.e. the second cell of the second memory and, importantly, the next operation of 27 fails to discharge the capacitor 19 discharge. When the first code is removed from the register, relay 12, belonging to the code consumer, is activated (in principle, the zero memory cell that plays the first memory) the code and, at the same time, its blocking contact 11 blocks the possibility of premature operation of relay 12 and, therefore, excludes the possibility of superimposing the second code on the first one at any time of the actuated state, contacts. It returns to the initial state, the relay 12 pulses and transfers the second code from the second to the first memory cell. As a result, the code shift is completed. According to the diagram, the relay 12 for the cCieT of its contact 18 prohibits the latter from operating prematurely. the low-order bit of the high-order relay allows the first one to increase the time of its actuated state without imposing, hence without a claim) codes. This determines the reliability of the register operation when relays 12 and 27 are aging, i.e. when weakening its contact springs, the appearance of short-circuited turns in its winding, etc. However, due to the disconnecting action of the capacitor, the circuit of the windings of the relay 12 and 27 is always short-lived under the current, i.e. and when there are no codes in the memory cell. Therefore, the reliability of the register increases even more. Thus, due to a different connection of the capacitor, mutual blocking of the shift relay itself, i.e. As a result of new interconnected schematic features, in comparison with known devices, the register level has increased significantly. The register became uncritical to changing the number of parameters of its scheme, which is very important for the practical operation of the perHCtpa shift. 66 The invention Shift register, containing memory cells, each of which is made on a cumulative element, such as a capacitor, a passive element, such as a resistor and three relays, with the beginning of the first and second relay windings connected to one of the power rails, and windings through the normally closed contacts of the third relay of the subsequent memory cell are respectively connected to the outputs of the shift register, and through the normally open contacts of the third relay of the previous memory cell are connected to the inputs of the shift register, and through its normally open Contacts to another power bus, the beginning of the winding of the third relay is connected via serially connected normally closed contacts of the first and second relays to another power bus, one of the capacitor plates and one of the resistors of the memory cell connected to one of the power rails, characterized in that, in order to increase the reliability of the shift register by eliminating the effect on the shift of the release time information and decrease the idle time of the relay under current, The other output of the resistor in the memory cell is connected via the normally open KCJHTBKT of the third relay of the previous memory cell to the other capacitor plate and through the normally closed contacts of the third relay of the previous memory cell and the nor-. Minimally open contact of the third relay, the next memory cell is connected to the end of the relay coil of each memory cell, and normally open contact of the third relay of each memory cell is connected by its leads to the start of this relay and the other power bus. Sources of information taken into account in the examination 1. Forest Journal, 5, 197, p. 227-UO. 2. USSR author's certificate No. 703863, cl G 11 C 29/02, 1976 (prototype). I I I 930386  05 si