SU1019424A1 - Data output device - Google Patents

Description

2 .. The device according to claim 1, characterized in that each communication channel contains a polarized and first and second control relay, diodes and a pair of resistor and capacitor, the power winding input of one control relay is the first input of the channel The supply winding input of the other control relay is connected to one terminal of parallel connected resistor and capacitor, the other terminals of which are the second input of the communication channel, the power supply windings of the first and second control relays are connected to the bus. potential of inputs first power windings

Hyulized relays are connected to one of the outputs of the first control relay, the other output of which is connected to the zero potential bus, the outputs of the first power windings, the polarized relays are connected to the positive potential bus, the inputs of the second power windings of the polarized 1X relays are connected to one of the diode outputs, the other terminals of which are the channels of the communication channel, the output of the second power windings of the polarized relays are connected to one of the terminals of the second control relay, the other terminal of which is connected; one and the pins of the first control relay.

one

The invention relates to computing, in particular, to exchange devices, and can be used in the construction of automatic control systems.

A device for outputting information is known, which contains communication channels, the outputs of which are the outputs of the device, and serially connected pulse generator and memory block.

The disadvantages of this device are its complexity and low reliability.

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

The goal is achieved in that a device containing communication channels, the outputs of which are the outputs of the device, and the serially connected pulse generator and the PSM unit, are entered into a switch, one of which is the first input of the device, and the inputs of the group are connected to the outputs of the distributor pulses, and the inputs of the memory block, one of the inputs of which is the second input of the device, the outputs of the memory block and the switch are connected to the corresponding inputs of each of the communication channels, and the input of the pulse distributor is the third input of the device ..

In addition, each of the communication channels contains polarized and first and second control relays, diodes and a parallel connected resistor and capacitor, the power winding input of a single control relay is the first input of the communication channel, the power winding input of the other control relay connected to one of the terminals of the parallel connected resistor

and the capacitor, the other terminals of which are the second input of the communication channel, the outputs of the power windings of the first and second control relays are connected to the zero potential bus, the inputs of the first power windings of the polarized relays are connected to one of the terminals of the first control relay, the other output of which connected to the zero potential bus, the outputs of the first power windings of the polarized relays are connected to the positive potential bus, the inputs of the second power windings of the polarized relays are connected to diodes alone, the other terminals of which s inputs are band communication channel, outputs the second power windings polarized relay is connected to one of the terminals of the second control relay, the other terminal of which is connected to one of terminals of the first control relay.

The drawing shows a diagram of the proposed device.

The device contains a distributor of 1 pulses, the outputs of which are connected to the corresponding inputs of memory block 2 and switch 3, and channels 4 of communication. Each communication channel contains control relays 5 and b, a resistor 7 and a capacitor 8, and also polarized relays 9 by the number of bits of the output code, the inputs of which through diodes 10 are connected to the corresponding outputs of memory block 2. The outputs of the switch 3 are connected to the inputs of the power windings of the control to the dich relays of the corresponding channel. The power supply windings of these relays are connected to the power supply housing. The control inputs of the distributor 1, the switch 3 and the information input of the memory block 2 are connected to the pulse generator II via the input buses 12-14 and the contacts 15-19 of the relay. The device works as follows. The codes to be output from the driver 11 through the bus 14 are interrupted. They are sent to the corresponding addresses of the block i of the memory. After that, the signal coming through the bus 13 starts the dispenser 1 pulses. The first output pulse of the distributor reads the information recorded on the first memory of the memory block 2 and simultaneously enters the first input of the simulator 3. The code read from the memory block in the form of pulses of the track goes through the diodes 10 to the inputs of polarized relays of all 4 communication channels . Diodes are required to decouple the windings of the relay of the same-named bits of all channels. Switch 3 allows you to connect any of the n outputs of the distributor to any of the m outputs of the switch (where) and thereby send information recorded at any address of memory block 2 to any communication channel. This allows, in turn, to have redundant control objects and, through the co-switch 3, quickly connect them to the corresponding addresses of the memory block instead of the failed ones, which increases the reliability of the device. The impulse from the switch output is sent to the windings of the power supply of relays 5 and 6 from the corresponding channel. This closes the contacts 16 and 17 of the relay 5 and the contacts 19 and 18 of the relay b; Through the first 9 windings of the power supply p (| schized relays start to flow current through the circuit: power supply terminal, relay coil, closed contacts 16 and 17 of relay 5, power supply case, and all polarized relays 9 open. Second coils of relay 9 in this time is de-energized, since contacts 15 and 16 of relay 5 are open. The capacitance value of capacitor 8 is selected in such a way that its charge takes place during the first half of the pulse duration at the switch output.After charging of the capacitor 8, relay 5 de-energizes it The contacts 16 and 17 are rammed, and the contacts 16 and 15 are 3aNKaKaKTCH. The resistor 7 serves to discharge the capacitor, the current flowing through it is not enough to activate the relay 5. The outputs of the first windings pe {ne 9 are disconnected from the common bus (case) of the power source and the outputs of the second windings of these relays are connected to it through the closed contacts 19 and 18 of relay 6 and the contacts 16 and 15 of relay 5. Through the windings of the power of relay 9, which receives pulses from the corresponding outputs of the memory block 2 through diodes 10, begins leak current. In this case, the contacts of the corresponding relays 9 are closed, and the information read from the memory block arrives at the control object. At the end of the pulse from the switch output, the relay 6 is de-energized and the contacts 19 and 18 open. After this, the power windings of all the relays of this channel 4c are de-energized. The second output pulse of the distributor I reads. The information recorded on the second ad-ipecy of the memory unit, and through the switch 3 outputs it to another communication channel 4, etc.

Claims (2)

1. OUTPUT DEVICE INFORMATION containing communication channels, the outputs of which are the outputs of the device, and a pulse shaper and a memory unit connected in series, characterized in that, in order to increase reliability and simplify the device, it contains a switch, one input of which is the first input of the device, and the group inputs are connected to the outputs of the pulse distributor and the inputs of the memory block, one of the inputs of which is the second input of the device, the outputs of the memory block and the switch are connected to the corresponding inputs of each channel communications, and an input pulse is third input of the distributor device. 2 .. The device according to π. 1, characterized in that each of the communication channels contains polarized and first and second control relays, diodes and a resistor and capacitor connected in parallel, the input of the power winding of one control relay is the first input of the communication channel, the input of the power winding of the other control relay is connected in parallel with one of the outputs connected resistor and capacitor, the other terminals of which are the second input of the communication channel, the outputs of the power windings of the first and second control relays are connected to the bus. zero potential, the input of the first x power windings {polarized relays are connected to one of the terminals of the first control relay, the other output of which is connected to the zero potential bus, the outputs of the first polarized relay power windings are connected to the positive potential bus, the inputs of the second polarization relay power windings are connected to one diode terminal , the other terminals of which are the inputs of the communication channel group, output) of the second power windings of the polarized relays are connected to one of the terminals of the second control relay, the other terminal of which is connected and they ^ g conclusions of the first control relay.