RU188797U1 - DEVICE INPUT AND OUTPUT OF SINGLE COMMANDS - Google Patents

Abstract

The utility model relates to automation and computing, in particular, to the processing of discrete signals, and can be used to interface various computing control systems with sensors and actuators. The essence of the utility model is that the input-output device of one-time commands contains two identical one-time receiver commands and one-time output shaper commands of two types “0 V / open” and “27 V / open”, connected to the “+27 V” and “0 V” power supply buses and using the one-time switch select register Andes reading, single register read instruction type "0 / breakage" single register read command type "27 / breakage" receivers single commands and selecting the type of single register for issuing command output shaper single commands to the traffic channel. The first receiver of one-time commands serves to enter external commands of the device, the second receiver serves for functional control of the output one-time commands of the device. All device registers are powered from an external insulated source of stabilized voltage + Е V. Registers of the first and second receivers of one-time commands are connected respectively to the inputs or outputs of one-time commands of the device via serially connected optoelectronic and diode keys, and the register of the output single-time commands is connected to the corresponding outputs of one-time commands devices through series-connected optoelectronic, transistor and diode keys. The technical result of the utility model is OIT in expanding the functionality of the device by providing software settings for the type of received or issued one-time commands and monitoring the input and output circuits of the receivers and driver of one-time commands, as well as improving the noise immunity of the device due to galvanic (optoelectronic) isolation of the input and output chains of one-time commands from the corresponding registers in the receivers and the driver of one-time commands.

Description

The proposed utility model relates to automation and computing, namely: to the field of processing discrete signals, and can be used to interface various computing control systems with sensors and actuators.

A module for collecting and converting signals of one-time commands is known (see patent RU 54447, 23.11.2005), which contains the same type of drivers for the number of input one-time commands, two microcontrollers, an optocoupler unit and a standard interface unit for outputting data in accordance with RS-485 protocols and ARINC-429.

In the known device using the opto-isolator block, the influence of the input part of the module on the output interface is excluded; however, it has the essential disadvantage that it provides only the reception of one-time commands of different types.

A device for input of one-time commands is known (see RU Patent 69276, August 6, 2007), which contains N resistive pairs and N logic elements EXCLUSIVE OR by the number of input one-time commands, as well as a data input node, which provides test control of input networks of one-time commands.

The known device has the same significant drawback as the previous one, since it provides only the reception of one-time commands without the possibility of forming and issuing one-time commands to external systems.

On the totality of similar essential features, the input-output device of one-time commands as part of an input-output device (see patent RU 2524852, 04.12.2012), containing a receiver of one-time commands and a driver of output one-time commands connected to power supply buses, is closest to the proposed utility model. and using the appropriate registers to the device information exchange channel, in which the inputs of the receiver of one-time commands are the inputs of one-time commands of the device, and the outputs of the driver of the output one-time commands are i exits one-time device commands.

The known device has the following disadvantages:

1) there is no possibility of setting the type of one-time commands received or issued;

2) there is no possibility of test or functional control of the receiver and shaper of one-time device commands;

3) there is no galvanic isolation of the circuits of one-time commands from the control and receiving registers of the receiver and shaper of one-time commands, which reduces the noise immunity of the device as a whole.

Before the claimed utility model was tasked with eliminating all the above disadvantages of the prototype.

The task is solved by the fact that the proposed input-output device of one-time commands, containing a receiver of one-time commands and a shaper of output one-time commands, connected to the "+27 V" and "0 V" power supply buses and using corresponding registers powered from an external isolated source of stabilized voltage + ЕВ, to the channel of information exchange of the device, in which the inputs of the receiver of one-time commands are the inputs of one-time commands of the device, and the outputs of the shaper of output one-time commands are the outputs of times x device commands.

New in the proposed device is that the device includes: a second receiver of one-time commands connected to the outputs of one-time commands of the device, power buses "+27 V" and "0 V" and an external isolated voltage source, which forms together with the output driver one-time commands output unit of one-time commands of the device, register of choice of type of one-time reading commands and read registers of one-time commands of type “0 V / open” and “27 V / open” as part of receivers of one-time commands, and also powered from power buses “+27 V” and "0 V" nei auxiliary voltage stabilized voltage source (8-10) V and a single-type command selection register for issuing the output one-time device commands as part of the driver. The outputs of the register of the type of one-time command for reading receivers of one-time commands are connected via current-limiting resistors to the anodes of optoelectronic switches, the cathodes of which are connected to a common point of an external insulated voltage source. The optoelectronic key for selecting a one-time command of the type “0 V / open” is connected to the power bus “+27 V”, the key output is connected via current-limiting resistors with anodes of optoelectronic key LEDs, the cathodes of which are connected to the corresponding inputs of one-time commands through the directly connected diodes and the outputs connected to the corresponding inputs of the register read one-time commands such as "0 V / open" and through the current-limiting resistors to the bus "+ E In" external isolated voltage source. An optoelectronic switch for selecting a single command of the type “27 V / open” is connected to the power bus “0 V”, the key output is connected to the cathodes of the optoelectronic switches through the current-limiting resistors through the current-limiting resistors and the outputs connected to the corresponding inputs of the register read one-time commands such as "27 V / open" and through the current-limiting resistors to the bus "+ E In" external isolated voltage source. The outputs of the register of the type of one-time command to issue the shaper of the output one-time commands corresponding to the command “0 V / open” are connected via current-limiting resistors to the anodes of the LEDs of the optoelectronic switches, the cathodes of which are connected to the bus “0 V” of the external isolated voltage source, the output switches are powered from auxiliary non-isolated stabilized voltage source + (8-10) V, and the outputs are connected to the corresponding control inputs of the first type of transistor switches connected to the power bus “0 V”, the outputs of which are connected via reverse-connected diode switches to the corresponding outputs of the output one-time commands of the device. The outputs of the type of one-time command selection register for issuing one-time output shaper commands corresponding to the 27 V / open command are connected via current limiting resistors to the anodes of the LEDs of the optoelectronic switches, the cathodes of which are connected to the 0 V bus of an external isolated voltage source, the output switches are connected to power bus "0 V", the outputs are connected to the corresponding control inputs of the transistor switches of the second type, connected to the power bus "+27 V", and the outputs of which through directly connected diodes e keys are connected to corresponding outputs of the output devices of single commands.

The technical result of the claimed utility model is to expand the functionality of the device by providing software settings for the type of one-time commands “27 V / open” or “0 V / open” received or issued by the device and monitoring the input and output circuits of the receivers and driver of one-time commands, and also in improving the noise immunity of the device due to the galvanic (optoelectronic) isolation of the input and output circuits of one-time commands from the corresponding registers in the receivers and the driver of one-time device commands oystva

The figure 1 shows the block diagram of the claimed device, figure 2 is the block diagram of the receiver of one-time commands, figure 3 is the block diagram of the shaper output one-time commands of the device.

The claimed device comprises first and second receivers of one-time commands 1, shaper of output one-time commands 2, block for input of one-time commands 3, information exchange channel 4, power supply bus 5 "+27 V", power supply bus 6 "0 V", inputs of one-time commands of device 7 -1, ..., 7-N, outputs of one-time commands of the device 8-1, ..., 8-N, tires 9 "+ Е В" and 10 "0 V" of an isolated external voltage source, register of selection of one-time commands for reading 11 single-time receivers device commands, current-limiting resistors 12, optoelectronic keys 13, diode keys 14, register 1 5 readings of one-time commands of type “0 V / open”, register 16 reads of one-time commands of type 27 V / open, register 17 of type selection of one-time issuance command, auxiliary non-isolated voltage source 18 + (8-10) V, transistor switch of the first type 19, transistor switch of the second type 20.

The receiver of one-time commands 1 together with the driver of the output one-time commands 2 form the output unit of one-time commands 3 devices. The first and second receivers of one-time commands 1 are connected to each other and to the driver of the output one-time commands 2 by information exchange channel 4 and power supply buses 5 "+27 V" and 6 "0 V" devices. Input one-time commands RK 1, ..., RK N arrive at the corresponding inputs 7-1, ..., 7-N of the first receiver of one-time commands 1, and the outputs of one-time commands RK 1, ..., RK N are removed from the outputs of the driver 2 output one-time commands of the device, connected to the corresponding inputs of the second receiver one-time commands 1 and outputs 8-1, ..., 8-N one-time commands of the device. First and second receivers of one-time commands 1 and shaper of output one-time commands 2 output units of one-time commands 3 devices connected to buses 9 "+ Е В" and 10 "0 V" external insulated stabilized voltage source for powering all registers of the device and information exchange channel 4 The outputs of the register of selection of the type of one-time commands for reading 11 receivers of one-time commands 1 through the current-limiting resistors 12 are connected to the anodes of the LEDs of the optoelectronic switches 13, the cathodes of which are connected to the common point of the external isolator The power supply bus-bus is 10 "0 V". An optoelectronic switch 13 for selecting a one-time command of the type “0 V / open” is connected to the 5 "+27 V" power supply bus, and the switch output is connected via current limiting resistors 12 to the anodes of the LEDs of the optoelectronic switches 13, the cathodes of which are connected to directly through diode switches 14 the corresponding inputs of 7-K one-time commands of receivers of one-time commands 1, and the outputs are connected to the inputs of the read register of one-time commands 16 of type “0 V / open” and through current-limiting resistors 12 to the bus 9 “+ Е В” of an external isolated voltage source. An optoelectronic switch 13 for selecting a single command of the type “27 V / open” is connected to the 6 "0 V" power supply bus, and the switch output is connected via current-limiting resistors 12 to the cathodes of the LEDs of the optoelectronic switches 13, the anodes of which are connected to the corresponding inputs 7-To one-time commands of receivers of one-time commands 1, and the outputs are connected to the corresponding inputs of the register of reading one-time commands 16 of the type “27 V / open” and through the current-limiting resistors 12 to the bus 9 "+ Е В" of the external isolated source voltage and I. The outputs of the register of the type of one-time command to issue 17 shaper output one-time commands 2 output unit single commands 3, corresponding to the command type "0 V / open", connected through the current-limiting resistors 12 to the anodes of the LEDs of the optoelectronic switches 13, the cathodes of which are connected to the bus 10 "0 In "external isolated voltage source, the output switches are powered from the auxiliary non-isolated stabilized voltage source 18 (8-10) V, and the outputs are connected to the corresponding control inputs of the transistor switches 19 the first type, connected to the power supply bus 6 "0 V", the outputs of which through the back included diode keys 14 are connected to the corresponding outputs of 8-K one-time commands of the device. The outputs of the register of the type of one-time command to issue 17 shaper output one-time commands 2 output units of one-time commands 3 devices corresponding to a one-time command of the type “27 V / open” are connected via current-limiting resistors 12 to the anodes of the LEDs of optoelectronic switches 13 whose cathodes are connected by bus 10 ” 0 V "of an external insulated voltage source, output switches are connected to the 6" 0 V "power supply bus, the outputs of the optocouplers 13 are connected to the corresponding control inputs of the transistor switches 20 of the second type, Connections to the power bus 5 "+27", and outputs through diodes directly included keys 14 are connected to the respective outputs 8-K output single device commands.

The claimed device works as follows.

The input of one-time commands (discrete signals) is made through the inputs of one-time commands 7-1, ... 7-N devices. Preliminary on the channel of information exchange 4 in the register 11 of the selection of one-time commands for reading the receiver of one-time commands 1 of the device, a logical unit is written into the discharge corresponding to either a one-time command “0 V / open” or one-time command “27 V / open" for all N one-time device commands. If a command of the type “0 V / open” is selected, the voltage is +27 V through the corresponding optoelectronic switch 13 and the current limiting resistor 12 is fed to the anode of another optoelectronic switch 13 connected in series with it and then through the directly connected diode 14 to the corresponding input of the one-time command “0 In this way, thus creating a current in the input circuit of the optoelectronic key 13. The output stage of the key opens and a logical zero signal appears at the corresponding input of the register 15 to read one-time commands of the type “0 V / open”, corresponding to s presence at the respective input devices of this type a single command. If the command “27 V / open” is selected, the corresponding optoelectronic switch 13 is triggered, the output of which is a voltage of 0 V from the power supply bus 6, which through the current-limiting resistor 12 is fed to the cathode of another optoelectric switch 13 connected in series with it, thus closing the current circuit from the corresponding one-time command “+27 V” via the directly-on diode switch 14. This opens the output stage of the optoelectronic switch 13 and on the corresponding input of the register 16 reads one-time commands like “27 V / open” appeared The logical zero signal corresponds to the presence of a one-time command of this type at the corresponding device input. By simultaneously selecting both types of one-time commands in register 11 for selecting one-time commands for reading the receiver of one-time commands 1 of the device, it can be tested by setting the values of the logical unit to both control bits of register 11. At the same time, both optoelectronic switches 13 connected to one the same one-time command to a 7-K device, and in all bits of registers 15 and 16 of reading one-time commands, the values of logical zero, corresponding to the virtual presence on all in odes single commands both types, while real teams at the input of the device at this time to reliably control should be absent.

Output single commands (discrete signals) is as follows. Preliminary, in the register 17 of selecting the type of one-time commands for issuing individually for each output command of the device 8-1, ..., 8-N, a logical unit is recorded in information exchange channel 4 into one of two bits of register 17 corresponding to the issued one-time command. In this case, the corresponding optoelectronic switch 13 of the shaper of the output one-time commands 2 is triggered, and depending on the type of the one-time command selected, either a positive voltage (8-10) V is applied to the input of the transistor switch 19 of the first type in case of selecting the one-time command “0 V / open”, or voltage 0 V from the power supply bus 6 to the input of the transistor switch of the second type 20 in case of selecting a single command of the type “27 V / open”. In the first case, at the output of a one-time command, a potential of 0 V appears through the back-on diode switch 14, or a voltage of +27 V through another diode switch 14 directly turned on in the second case.

The functional control of the output one-time commands can be carried out using the output one-time commands 2 connected to the output of the shaper of the second receiver of one-time commands 1 as described above, including the test control of the circuits of the receiver 1.

Both when entering and issuing one-time commands as a control procedure, it is necessary to read back the data recorded in device registers 11 and 18 via information exchange channel 4 to prevent unwanted (emergency) commands from malfunctioning of registers or the information exchange channel itself.

When implementing the claimed utility model, device registers 11, 15, 16, 17 can be executed on an EP4CGX30 FPGA with an information exchange channel 4 based on PCI - express, optoelectronic keys 13 on ACPL-247-500 E microcircuits, transistor keys of the first type 19 on BTS53405G , the second type - on the BTS4140N, BAS70-04 can serve as the diode keys 14, the 18-ordinary Zener diode (8-10) V. can serve as a voltage source.

Claims (1)

A one-time command I / O device containing a receiver of one-time commands and a shaper of output one-time commands connected to the “+27 V” and “0 V” power buses and using the corresponding registers connected to an external isolated stabilized voltage source with “+ Е В” buses and "0 V" to the device information exchange channel, in which the inputs of the receiver of one-time commands are the inputs of one-time commands of the device, and the outputs of the shaper of output one-time commands are the outputs of one-time commands of the device, distinguishing The fact that the device includes: a second receiver of one-time commands connected to the outputs of one-time commands of the device, power buses "+27 V" and "0 V" and an external insulated voltage source, and forming, together with the output driver, one-time commands devices, register of choice of type of one-time reading commands and registers of reading one-time commands like “0 V / open” and “27 V / open” as part of receivers of one-time commands, as well as powered from “+27 V” and “0 V” power buses uninsulated auxiliary source hundred bilized voltage + (8-10) V and a single-type command selection register for issuing one-time output commands as part of a shaper, the output registers of a single-type command selection type for reading one-time command receivers through current-limiting resistors are connected to anodes of optoelectronic LEDs, whose cathodes are connected to a common point of an external isolated voltage source; an optoelectronic key for selecting a one-time command of the type “0 V / open” is connected to the “+27 V” power supply bus, the output of the key is connected via current lines optical resistors with anodes of LEDs of optoelectronic keys, the cathodes of which are connected via direct-connected diode keys to the corresponding inputs of one-time commands, and the outputs are connected to the corresponding inputs of the read register of one-time commands like “0 V / open” and through current-limiting resistors to the bus “+ Е В” an external isolated voltage source, an optoelectronic switch for selecting a single command of the type “27 V / open” is connected to the “0 V” power supply bus, the output of the switch is connected to the cathodes via the current limiting resistors of optoelectronic switches, the anodes of which are connected via reverse-connected diode switches to the corresponding inputs of one-time commands, and the outputs are connected to the corresponding inputs of the read register of single commands of the type “27 V / open” and through the current-limiting resistors to the “+ E B” bus of an external isolated source voltage, the outputs of the register of the type of one-time command for issuing the shaper of output one-time commands, corresponding to the command “0 V / open”, are connected via current-limiting resistors to the anodes of the optoelectronic LEDs to The keys, the cathodes of which are connected to the “0 V” bus of an external insulated voltage source, output switches are powered from an auxiliary non-isolated stabilized voltage source + (8-10) V, and the outputs are connected to the corresponding control inputs of transistors of the first type connected to the power supply bus “ 0 V ", the outputs of which are connected via reverse-connected diode keys to the corresponding outputs of the output one-time commands of the device, the outputs of the register of the type of one-time command for issuing the driver are output one-time commands corresponding to the command “27 V / open” are connected via current-limiting resistors to the anodes of the LEDs of the optoelectronic switches, the cathodes of which are connected to the “0 V” bus of an external isolated voltage source, the output switches are connected to the power bus “0 V”, the outputs are connected to the corresponding control inputs of the transistor switches of the second type, connected to the “+27 V” power supply bus, the outputs of which are connected via direct-connected diode switches to the corresponding outputs of the output one-time commands of the device va.

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