SU1501028A2 - Information display device - Google Patents

Abstract

The invention relates to computing and can be used to enter information from a computer to print. The aim of the invention is to increase the reliability due to the possibility of automated monitoring of the device performance without the participation of printing devices. The device for outputting information contains a decoder 1, the first register 2, the third register 3, the code converter 4, the control unit 5, the first counter 6, the second counter 7, the second register 8, the failure and failure analysis unit 9, the switching unit 10, the first switch 11 , second switch 12, OR element 13 of the first group, mode control unit 14, OR 15 element of the first group, multiplexer 16, third counter 17, two OR elements 18, 19 of the second group, AND 20 element. The invention speeds up the search and localization of faults by providing various autom Aizirovannyh modes of operation check device performance without the fate of the printing device. 8 il.

Description

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The invention relates to the field of computing and could be used for. output its form, 1P1 from the computer to print.

The aim of the invention is iiOBiji reliability due to the provision of 1; and automated monitoring of the device’s performance without the participation of printing devices

FIG. 1 shows a block diagram of the device; in fig. 2 shows an example of implementation of the mode control block i in FIG. 3 — graph-algorithm of states and transitions of a mode control block; in fig. 4 is a circuit diagram of the code converter; FIG. 5 is a block diagram of the analysis of failures and failures; FIG. 6 is a block diagram of a P1 switch; in fig. 7 is an example of the implementation of the control unit of the device; FIG. 8 — graph-algorithm of states and transitions of the control unit of the device.

The device for outputting information contains a decoder 1, the first register 2, the third register 3, the code converter 4, the control unit 5, the first counter 6, the second counter 7, the second register 8, the failure and failure analysis unit 9, the switching unit 10, the first switch 11 , second switch 12, OR element 1 of the first group, mode control unit 14, OR 15 element of the first group, multiplexer 16, third counter 17. two OR elements 18, 19 of the second group, AND element 20, information inputs 21 of the first device group, first . The entry resolution 22 of the recording device, the second in device write enable progress 23, device reset input 24, device stop input 25, control mode setting inputs 26, information outputs 27 and 28 of the first and second device groups, information output 29 and 30, and end of the device transfer, output 31 of device intervention The control outputs 32, 33 of the device, the control inputs 34 of the first device group, coming from the first printing device, the control inputs 35 of the first group of the device, coming from the second printing device, the control input 36, second the first group of devices coming from the first printing device, the control input 37 of the second group of devices

Q

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50 . Q

five

RoGutnl, post uppnliy from the second pentapimch) device,

Block 14 (FIG. 2) control contains a multiplexer 38, generator 39, permanent memory 40, output register 41.

The codec converter 4 (Fig. 4) contains a switch 42 and a permanent memory 43.

Block 9 analysis of failures and failures (Fig. 5) contains the element 44 delay, the element And 45, the trigger 46.

Switching unit 10 (FIG. 6) contains four switches 47-50. three elements AND 51-53, element OR 54 two triggers 55 and 56, two elements 57, 58 delay.

The control unit 5 (Fig. 7) contains a communication trigger 59, a multiplexer 60, a generator 61, a permanent memory 62, an output register 63.

The device works as follows.

The decoder 1 decodes the binary code of the command received at the information input 21 of the device from the source of information. Register 3 stores the characteristics of the commands decoded by decoder 1. The contents of register 3 change according to the write and reset enable signals sent to the control inputs of register 3 from the source of information on the control inputs 23 and 24 of the device. Register 2 stores information from the source of information on the information inputs 21 of the device. The contents of register 2 vary according to the write and reset enable signals supplied to the control inputs of register 2 from the source of information on the control inputs 22 and 24 of the device.

Code converter 4 produces information received at its input from the outputs of register 2 and presented in various codes and formats (2KT code, packed and unpacked binary-decimal code), to the required form, received in the selected type of printing device, and forms Space characters. If it is necessary to work with the information presented in the 2KT code or unpacked binary-decimal code, the information obtained from the output of the register 2 goes to the address inputs of the permanent memory 43. If necessary,

information from the information presented in the packed binary-decimal code, information {, Gloluche 1- at the output of the register 2, goes to the information inputs of the switch

42, which provides the packaging of the input code. The control-switch 42 is carried out, according to the signal received at the control input of the code converter 4

To the control input of the switch 42 from the control unit 5, if O is present at its input from the output of the switch 42, the upper tetrad of the binary-decimal code enters the address inputs of the permanent memory 43, and if there is 1, the junior tetrad.

The entire area of the fixed memory 43 is divided into zones: the presentation of information in 2MT code, the presentation of information in packed binary-decimal code, the presentation of information in unpacked binary-decimal code, the zone of the symbol Space. The selection of the necessary zone of the permanent memory 43 is carried out in accordance with the contents of the control field in the format of the address of the permanent memory.

43. A possible format of the address of the permanent memory 43 is presented below:

where UPR is the direct address memory control 43,

SHF - field information, presented in various codes and formats.

The control field of the address of the permanent memory 43 is formed by the first control input of the 4-code converter, which receives signals from the output of the third register 3, identifying the information representation (2MT code, packed and unpacked binary-decimal code), and the second control input, coming from the control unit 5, the presence of 1 in which ensures the selection of the space symbol zone in the fixed memory 43. In this case, the 4 code converter serves as a space character shaper and is used to arrange the paper run after the Pechasignals coming from the OR 13 or 15 elements of the first group in one direction. Moreover, the signal at the output of the second switch is formed when there is a signal from the element OR 13, gated by the signal from the direct

5 in the code of the first flip-flop 55 of the switching unit 10, or in the presence of a signal from the gadget 15. a probed signal from the direct output of the second flip-flop 56, or in both cases. The signals transmitted by the switch 12. initiate the operation of the control unit 5, the unit 9 for the analysis of failures and failures. A signal (presence 1) indicating a failure of one of the devices (for example, loss of a series of clock pulses during printing) is not a failure, therefore, from the output of switch 12 ,. By the minute, the delay element 44 of the block 9 for analysis of failures and failures is fed to the output 31 of the device to report a failure in the source of information. Signal (presence of 1), indicating a re-. during one of the printers

40

50

The type (interframe run) or on a given 55 in the print mode comes from the output in the command number of lines. switch 12 to the input element 44

delays and (the second input of the element I 45) of the failure analysis block 9 and the register 8 register the information obtained from the converter outputs

4 codes. Suspend U i.ibrxo; uforo of the grinder is the PS to the recording scattering signals and reset, received from control unit 5 of the ynpannHini mfi register 8,

The first switch 11 divides into two directions the signals arriving at its information inputs from register 8 and control unit 5. The switch is controlled by the switching unit 10: in the presence of signal 1 at the direct output of the first

Trigger 55 of switching unit 10. The appearance of corresponding signals (presence 1) at the outputs is initiated.

27 of the first group of the device, and the information on the first outputs of this group corresponds to the information on

the outputs of register 8, and the information on the second output of the first group corresponds to the information on the first output of control unit 5. Similarly, the outputs 28 of the second group initiate signals corresponding to the input signals of the switch 11, in the presence of signal 1 at the direct output of the second

56 trigger unit 10 switching. The second switch 12 combines em

signals from the elements of OR 13 or 15 of the first group, in one direction. Moreover, the signal at the output of the second switch is formed when there is a signal from the element OR 13, gated by the signal from the direct

Code of the first flip-flop 55 of the switching unit 10, or if there is a signal from the element S1I 15. Prostrobirovannogo signal from the direct output of the second flip-flop 56, or in both cases. The signals transmitted by the switch 12. initiate the operation of the control unit 5, the unit 9 for the analysis of failures and failures. A signal (presence 1) indicating a failure of one of the printers (for example, loss of a series of clock pulses during printing) is not a failure, therefore, from the output of switch 12 ,. By the minute, the delay element 44 of the block 9 for analysis of failures and failures is fed to the output 31 of the device to report a failure in the source of information. Signal (presence of 1), indicating a re-. during one of the printers

ev Element 44 Delay Delays | the propagation of this signal to the first input of the element 45 at the time T If the signal of the presence of the print mode of the currently operating printing device is reset (presence O), before time 7 expires, then the second input of the element 45 will set the signal O which goes to the first input of block 9 analysis of failures and failures. The presence of O at the output of block 9 indicates the trouble-free operation of printing devices.

If the signal of the presence of the print mode (1) of the currently operating printing device (PU1 or PU2) is not reset for a time longer than T, then signals 1 are set to 1 at both inputs of the element 45 and the output of the element 45 forms a failure signal of the printer PUI or PU2, - working at the moment.

When both printing devices PU1 and PU2 element malfunction, AND 51 of switching unit 10 generates a signal. Interference is required (1), which is fed to trigger input 46, trigger 46 remembers the sjoT signal and issues it (1) to control unit 5. state and output 31 of the device for transmitting the signal

ten

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thirty

the first information input of the first 47 or third 49 switch, at the output of the corresponding switch, turns on signal 1, which through the corresponding trigger (55 or 56 goes to the second or third output of the block, respectively. Besides, the first 47 and third 49 switches provide automatic switching from the first 55 flip-flop on the second 56 and vice versa.The switch from the first 55 flip-flop to the second 56 occurs when there is a signal (1) on during the first flip-flop 55 or if there is a signal about the failure of the first printing device PU1, for example after the printer has switched to print mode or when the ready signal is reset (presence of signal O) at the output of an ICh 18 element arriving at the second control input of the third switch 49, and the availability of a readiness signal at the output of the OR 19 element arriving to the second information input of the third switch 49. Moreover, after switching, i.e. setting the second trigger 56 to one state, the first trigger 55 is reset to the zero state. A second pair of information and control inputs of the second switch 48 participates in the reset; there is a signal at the information input

to the source of information. Trigger 46 - 35 1, coming from the output of the first

It is zeroed by a reset signal from an information source coming from device 24.

The switching unit 10 via the switch 11 controls the operation of the printing devices and the mode control unit 14. In the initial state, the first 55 and second 56 triggers should be reset to zero by a reset signal from the source of information on the control input 24 of the device.

The first 55 and second 56 triggers are set respectively by the signal (1) from the output of the first 47 and third 49 switches. When the first 47 or third 49 switch arrives at the second control input of the corresponding signal from the control block 5, depending on the sign of the command being executed and the availability of the readiness signal from the output of the corresponding element OR 18 or 19.

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The first information input of the first 47 or third 49 switch, at the output of the corresponding switch, is given a signal 1, which is via. the corresponding trigger (55 or 56) goes to the second or third block outputs, respectively. In addition, the first 47 and third 49 switches provide automatic switching from the first 55 flip-flop to the second 56 and vice versa. Switching from the first 55 flip-flop to the second 56 occurs when there is a signal (1) at the output of the first flip-flop 55 or if there is a signal about the failure of the first PU1 printer, for example, the engine is not overclocked after the printer has switched to the print mode, or when the ready signal is reset (O signal ) at the output of the ISh 18 element, arriving at the second control input of the third switch 49, and the presence of a ready signal at the output of the element OR 19, arriving at the second information input of the third switch 49. And after ne switch, i.e. setting the second flip-flop 56 to the one state, the first flip-flop 55 is reset to the zero state. A second pair of information and control inputs of the second switch 48 participates in the reset; there is a signal at the information input

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the trigger 55 through the first delay element 57, and on the control one the enabling signal (1) from the output of the second, ry, trigger one set at one, the trigger 56, and one of the signals either about the failure of the first printing device PU1 or resetting the ready signal at the output of the OR 18 element. The second delay element 58 provides a delay in the signal from the output of the second trigger 56 to the second information input of the fourth switch for a time sufficient to reset the first trigger 55. This prevents the reset of the tim in a single state of the second flip-flop 56. Similarly, the automatic switching is performed from the second flip-flop 56 on the first 55 and the subsequent second reset latch 56 in the case of the presence of signal failure e chi second pecha915

The device PU2 (presence of signal 1) or resetting the ready signal at the output of the RSHI element 19. The second pair of information and control inputs, respectively, of the first 47 and fourth 50 switches, respectively, participate in the installation of the first trigger 55 and the reset of the second trigger 56. The first delay element 57 plays the same role as the second delay element 58.

The second 48 and fourth 50 switches generate the reset signals of the corresponding triggers (55 or 56) not only when switching from one trigger to another, but also when a signal (1) arrives at the second control input of the corresponding switch from the control unit 5, allowing passage to the output the switch (48 or 50) of the signal of the command being executed (1) arriving at its first information input from the output of the register 3. The simultaneous reset of both triggers (55 and 56) is carried out by the signal. Intervention is required (1). formed by an element 51 in the following cases: in the absence of ready signals at the outputs of both elements PTI 18 and 19 (element 51), in the presence of a signal about failure of the second printing device PU2 and the absence of a signal ready of the first printing device PU1 (element I 52) . in the presence of a signal of failure of the first printing device 11U1 and the absence of a ready signal of the second printing device PU2 (element 53). Any of the conditions generated by AND 51-53 elements is also a condition for the installation of flip-flop 46, received through AND 51 at the input of the block 9 for the analysis of failures and failures.

Counters 6 and 7 serve to organize the paper run after printing (interframe run) and on the number of lines specified in the command. Counter 7 counts the number of pulses generated by control unit 5, when the number of pulses becomes equal to the number of lines of the interframe run, counter 7 causes the overflow signal to enter control unit 5 and stop the supply of pulses to its counting input. The operation of counter 6 is similar. The difference is that in the last one the preliminary

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Set the number of lines for which you want to run paper. This number is specified in the command code from the information source, and is written to counter 6 according to the installation enable signal from register 3. The contents of both counters are zeroed by the reset signal from the information source.

Control unit 5 coordinates the operation of all device nodes and communicates with the information source using control and synchronization signals generated by the unit in accordance with signals from register 3, from the information source (inputs 24, 25) from the switch 12, block 9 analysis of failures and failures, from counters 6 and 7, and the algorithm works. The control unit 5 is implemented as a firmware automaton. The multiplexer 60 serves to implement conditional transitions. A permanent 5 memory 62 serves to store a set of microinstructions. Register 63 is for storing the current microcommand.

The pulse generator 61 serves to synchronize the recording of the current microcommand into the register 63. The communication trigger 59 serves to generate a signal that is being switched from one state to another. The signal from the inverse output of the communication trigger 59 is used to control the switch 42 in the 4-code converter. The information inputs of the input multiplexer 60 are connected to the input signal buses of the control unit 5, i.e. signals, which are transitions from one connection) to another. The output of the multiplexer 60 is connected to the lower address input of the permanent memory 62, the remaining address inputs of which receive signals from the register 63. In each state of the automaton to which the selected cell of the permanent memory 62 corresponds, one of the input busbars is connected to the lower address input signals of the control unit 5. The selection of a plug-in bus is made in the microcommand format field. The possible microcommand format is presented below:

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where AMK is the address field of the next microinstruction,

AMX - connectable address field

lUHHbi input signals, УТ1Р - field of control unit 5 code signals. If an input signal is present on the selected bus (i.e., 1), the machine switches to the state in the lowest address bit of which

there is a unit. If the selected ig-nal source of information gives

there is no input signal (i.e., O is present), then the auto- matic goes into the state, in the low address bit of which there is a zero. For example, suppose the address field of the following microcommand is a combination of 0011, the address field of the connected input bus is 010. If an input signal is present at the second input of multiplexer 60 (i.e., 1), then the transition is performed at address 00111 if there is no input signal , the transition is performed at address 00110. All other conditional transitions are implemented in a similar way. To generate the output signals of the control unit 5, horizontal microprogramming is used, i.e. each floor

The control input 25 of the device is an INF-K signal strobe the information coming from the information source to the register 2, according to which the control unit 5 goes to. a state 2 in which a TCP signal is generated; a TCP signal arriving at the input of the installation of the communication trigger 59. As a result, at the direct output of the communication trigger 59,

20 the signal is flashing; the signal from the flip-flop output of the flip-flop 59 (O) allows the high tetrade of information byte at the switch output 42. Control block 5 goes to state 3,

25, in which the CTP RFP out signal is formed, according to which information from the outputs of the fixed memory 43 is recorded in the register 8. The control unit 5 enters the state 4 of the output signals is set in accordance with the corresponding signal The effect is a certain output signal of the rotation of the INF-B information, after block 5 of the control.

The graph of the command execution command. Record with an interframe run after printing and with autonomous storing of an incomplete string with the Space characters is shown in Fig. 7. The automaton graph in the circles shows the address of the fixed memory cell 62. in which the microinstruction is stored. Arcs show transitions from one state to another, the name of the signals above the circles means that the signals are formed in these states, the name of the signals above the arcs means that the transition from one state (the beginning of the arc) to another (the arrow of the arc) occurs if there are this signal.

The initial state of the automaton O. In it, the automaton is before the arrival: commands Record from the source of information. After the entry of the Record command, the register 3 remembers it and transfers its sign to the control unit 5, in which the latter transitions from the state O to 1, in which the ON1 and EXIT INFO signals are generated.

By the signal ON PU1 and the availability of the ready signal (1) at the output

the element OR 18, the signal of the command of the command Write through the first switch 47 sets the first trigger 55 of the switching unit 10 to one state.

Signal EXT. INF. enters at the output 29 of the device in the source of information. In response to the received control input 25 of the device, the INF-K signal strobe the information coming from the information source to the register 2, according to which the control unit 5 goes to. state 2, in which a TCP TCP signal is generated, which is input to the installation of communication trigger 59. As a result, a signal is set at the forward output of the communication trigger 59, the signal from the inverse output of the trigger 59 (O) permits the output of the switch 42 of the leading tetrad of the information byte. Control block 5 goes to state 3,

in which the CTP RFP signal is generated, according to which information from the outputs of the fixed memory 43 records 35

40

blunt through the switch 11 to the corresponding output 27 of the first group of the device. In response to the received signal, either the first printing device PU1 or the mode control unit 14 through the OR element 13 and the switch 12 outputs to the control unit 5 a BRA signal. When this signal arrives, the machine goes to

llcn

state

and waits for him to take off.

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after which, it transitions to state 6, in which the state of communication trigger 59 (TCP signal) is analyzed. With this signal present, the control unit 5 goes to state 7, in which a SET signal TMP is set, which translates communication trigger 59 into the opposite state. Signal 1 at its inverse output allows the switch 42 to skip the lower tetrad of information byte to the output. The control unit 5 goes to state 3, the process of transmitting the next tetrad of information is repeated in a similar way. If in state 6 the TCP signal is analyzed, then control block 5 goes to state 8. If the process

The data transfer from the source of information is resumed, the control unit 5 on the signal INF-K goes to state 2, and the process of transmitting information is repeated in a similar way. If the PF-K signal is absent, control block 5 switches to state 29, from which it is again at 8 and back at 29 until the STOP signal is received from the information source.

If in the process of data transmission, the control unit 5 turned out to be in state 4 and the DPR signal at the corresponding output of the IL 13 is not present, the control block 5 goes to state 9, from which, if there is no GST signal at the corresponding output of the OR 13, it goes to state 10 and the absence of a signal TRB MEMORY - to the state 4. If the first printing device PU1 transferred to the print mode and the PCT signal or the mode control unit 14 generated the PCT1I signal, then the control unit 5 from state 4 passes through state 9 condition 11, When tsutstvii failure of the first printing apparatus PU1 unit 5 by the control signal TRB VMESH proceeds to state 12, and after removal of the PCHT signal - via state 13 to state 1. If information transmission from the information source is completed, i.e., there is no INF-K signal, control block 5 goes to state 14, If the signal of STOP exchange windows 4 is not received from the information source, control block 5 will return to state 14 via state 1 and this will be repeated until At the control input 25 of the device, the STOP signal does not turn out, the control unit 5, through state 15, goes to state 16, sets the LOCK signal and starts to perform an interframe after printing on a predetermined number of lines (in this example it is equal to two). The LOCK signal is fed to the second control input of the information conversion unit 4 (presence 1), which provides for the selection in the 43 constant memory of the space character zone. Control unit 5 goes to state 17, forms a signal

five

piles BLOCKING and PAGE RG Wg out. On the signal PAGE ZP Pgout, the character code of the Space character is recorded in the register 8. The control unit 6 switches to state 18, in which the modification signal of the counter 7 + 1ChMPr per unit is generated. Control unit 5 goes to state 19 Generates a signal for tracking information INF-B transmitted either to the first printing device PU1 or to unit 14 of the mode control. In response to the BPR signal at the corresponding output of the OR element 13, the control unit 5 goes to state 20, in which it is before removing the BPR signal, then through state 19, with no BPR signal, to state 21, in which the INF-B signal is generated . In the absence of response signals from the PCT, the DPR either from the first printing device PU1, or from the block of 14 mode controls and the trouble-free operation of the first printing device PU1, without the signal of the TMB, the control unit 5 goes through cyclically states 22., 19, 21. If The first printing device of the control unit went into the printing mode and the signal was omitted, or the mode control unit 14 generated the signal ППТ1И the control unit 5 switches to the state 23. If there is no 5 VIEW of the TRB signal and the signal is removed, the device switches to the standby mode unit information and control block 5 goes through

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state

24

in state

25,

the presence of an overflow signal СЧПС-2 at the output of the counter 7 is analyzed. If there is no overflow signal (the presence of the signal СЧПС-2), the control unit 5 switches to the state 5, forms the second modification signal + 1СЧМПр, arriving at the counting input of the counter 7 and initiates in a similar way the transmission of the blanket character codes to the corresponding outputs 27 of the first group of the device and the printing of the second whitespace.

Counter 7 generates a signal for overfilling the SPPS-2. From state 25, control unit 5 on this signal enters state 26, generates a signal even OFF, transmitted

to the source of information and return to the initial state of O.

The organization of autonomous filling of an incomplete line with the Space characters for its subsequent printing is carried out similarly to the process of autonomous filling with the Space characters of the full line and realized by states 28-36 of the control unit 5; When both printers malfunction, a signal is generated. Intervention is required (BREAD), the presence of which is analyzed in states 10, 11, 34, 35, 22, and 23 of control unit 5. On this signal, control unit 5 goes to state 26, sets the SET signal to the information source, and returns to the initial state O.

The multiplexer 16 with memory receives, stores and outputs to the control outputs 32 of the device information received from the source via the information inputs 21 of the first group and converted into the device. The information is copied to the memory multiplexer 16 by a building signal from control unit 5 (in this case, the implementation is called a signal) in the presence of a write enable signal received from the four output of mode control unit 14. If there is a signal O, information about the first information inputs of the multiplexer is selected at the recording resolution input in multiplexer 16 with memory, and if there is a signal 1, it is selected from the second information inputs.

The third counter 17 counts the number of information packets transmitted that would be required: to fill one line of the printing device. Therefore the capacity

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MF P (O), according to which in block 14 of the mode control one of the signals ППР1И or ЗПР2И is formed, depending on the device operability check mode, arriving at the corresponding second input of the elements OR 13 or 15 of the first group. The counter 17 is zeroed at a CBP MF signal from the first output of the mode control block 14.

The OR elements 13 and 15 of the first device group initiate the operation of the second switch 12 either from signals (presence 1) of the output group of the mode control unit 14, or from signals received at the control inputs 34 and 35 of the first device group from the first and second printing devices, respectively.

The OR elements 18 and 19 of the second device group initiate the operation of the switching unit 10 either from signals (presence 1) of the third and fourth outputs of the mode control unit 14, or from signals received at the control inputs 36 and 37 of the second group of devices from the first and second printing devices respectively

The mode control unit 14 coordinates the operation of the device in various modes of checking the operability of the device without the participation of printing devices and ensures the automation of checks for pre-designed working algorithms. In MODE 1 mode, the operation of the device with the analog of the first printing device is checked, in the MODE 2 mode - with the analog of the second printing device. In both modes, visual control of the converted information is provided.

the counter 17 is determined by the number In the RECMM 3 mode, the block 14 provides for printing characters per line. Element F generates the signal MF-P (1) in the case of full filling of the counter capacity, which is transmitted to the mode control unit 14 to form one of the signals ППТИГ or ПЧТ2И - depending on the mode of checking the operability of the device coming to the corresponding-second input of the elements OR 13, OR 15 of the first group. If the counter's capacity is partially filled, the AND element 20 generates a signal

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MF P (O), according to which in block 14 of the mode control one of the signals ППР1И or ЗПР2И is formed, depending on the mode of testing the device, arriving at the corresponding second input of the elements OR 13 or 15 of the first group. The counter 17 is zeroed at a CBP MF signal from the first output of the mode control block 14.

The OR elements 13 and 15 of the first device group initiate the operation of the second switch 12 either from signals (presence 1) of the output group of the mode control unit 14, or from signals received at the control inputs 34 and 35 of the first device group from the first and second printing devices, respectively.

The OR elements 18 and 19 of the second device group initiate the operation of the switching unit 10 either from signals (presence 1) of the third and fourth outputs of the mode control unit 14, or from signals received at the control inputs 36 and 37 of the second group of devices from the first and second printing devices respectively

The mode control unit 14 coordinates the operation of the device in various modes of checking the operability of the device without the participation of printing devices and ensures the automation of checks for pre-designed working algorithms. In MODE 1 mode, the operation of the device with the analog of the first printing device is checked, in the MODE 2 mode - with the analog of the second printing device. In both modes, visual control of the converted information is provided.

 In RECMM 3 mode, block 14 provides

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Finds a device check in part a1 | Gomatic switching from the analogue of the first printing device to the analogue of the second one and vice versa, with the fixation of the result of the successful execution of the check.

The mode control unit 14 is implemented as a second microprogrammed automaton, which operates in close connection with the first microprogram automat of the control unit 5. Multiplexer 38 serves to implement conditional transitions. The permanent memory 40 serves to store a set of microinstructions. Register 41 is for storing the current microcommand. The generator 39 synchronizes the operation of the 14-mode control unit. The information inputs of the multiplexer 38 are connected to the input signal buses of the mode control unit 14, i.e. signals, which are transitions from one state to another. The outputs of the multiplexer 38 are connected to the lower address input of the permanent memory.

40, the remaining address inputs of which are signals from the register

41. In each state of the automaton to which the selected cell of the permanent memory 40 corresponds, one of the input signal buses of the mode control unit 14 is connected to the lower address input. The selection of a plug-in bus is made in the microcommand format field. The possible format of the microcommand of the second automaton is similar to the format of the microcommand of the first.

The implementation principle of the transitions of the second automaton is similar to the implementation principle in the first automaton. To generate the output signals of the mode control unit 14, horizontal firmware is used, since for each bit of the field of the output signals a certain output signal of the mode control unit 14 is assigned.

The mode control unit 14 provides an automatic check of the device operability in three modes, the execution of which is illustrated by the graph-algorithm in Fig. 3. The automaton graph algorithm in the circles shows the address of the constant memory cell 40, in which the micro- command is stored. Arcs show transitions from one state to another, the name of the signals above the circles means that the signals are formed in these states, the name of the signals above the arcs means that the transition from one state (the beginning of the scrape) to another (the arrow of the arc) occurs when there is this signal.

The initial state of the automaton O. In it, a CBR MF signal is reset for the third counter 17. Prior to the arrival of the mode setting signal (for example, from the control panel) MODE 1 MODE 2 or MODE 3, the machine goes through O, 5, and 10 cyclically. In the PEMIM 1 mode, the automaton goes to state 1, in which the signal is generated - the GTV 1I, connect 11C1 via the OR 18 element to the corresponding information input of the switching unit 10. On the signal INF Y with the second exit

In the first group of device outputs 27, the automaton enters state 2. If the contents of counter 17 modified by the signals of INF B from control unit 5 have not reached the limit number, the automaton goes from state 2 to state 3 by condition SCh-P (signal O ), coming from the output of the element AND 20 to the input of the block 14 of the mode control.

0 In state 2, the signals GTV1I and ZPR1I are generated. The signal ZPR1I is fed through one of the second inputs of the element OR 13 to the corresponding information input of the second switch 12. From state 3, the automaton returns to state 1 in which it waits for the signal of the FF -B1, after which the chain of states is repeated to

0 as long as the content of the third counter becomes equal to the number P, and the automaton, on condition SCH-P (signal 1 at the output of the element AND 20) from state 2, changes to state 4, in which signals are generated

5 rgvsch ППТТИИ and СБСИ. The signal ППТ1И through the element OR 13 is fed to the corresponding input of the second switch 12. From the state 4 av-. the tomato enters state 1, and the transfer process is resumed. The operation algorithms of the mode control unit 14 in mode 2, set by the MODE 2 signal from the device control panel, are similar to the mode 1 operation. In contrast to mode 1, the second pair of elements OR 15 and 19, outputs 28 of the second device group, participate in this mode. A multiplexer 16 with memory in mode 2 transmits information to the control outputs 32 of the device from the second information inputs with a GTV2I signal (1) at the resolution input

 recording multiplexer 16 with memory. The execution of the MODE 3 mode of the machine starts from state 11, in which the GTVS signal is generated,

0

five

0

coming through the element liTIH 18 to the corresponding information input of the switching unit 10. In state 11, the automaton waits for a RAB 1 signal from the switching unit 10, after which it enters state 12, in which the GTV1I and GTV2I signals are generated. In state 13, the GT31I is cleared. In the switching unit 10, switching from the first trigger 55 to the second 56 occurs in the presence of a signal (G), in this example implementation called RAB 1, at the output of the first trigger 55 and when the ready signal is reset, called in this example implementation as GTB1I to the second control input of the third switch 49, and the presence of the gat gatness signal, referred to in this case as the GTV2I implementation, which arrives at the second information input of the third switch 49. In this example, the implementation of RAB 2 is fed to the corresponding input of the third group of multiplexer 38 of the mode control block 14, through which the automaton of the block 14 goes to state 14. Signals generated in this state come from the outputs of block 14 through the elements OR 18 and 19 on the information inputs of the switching unit 10. The automaton enters state 15 after resetting the first trigger 55 of the switching unit 10 to the zero state (in the present example of implementation, this corresponds to a reset of the RAB D signal), which follows after the switch. In state 15, the readiness signal GTB2I is reset, in response to which, in switching unit 10, a switch back occurs from the second 56 flip-flop to the first 55 (in this case, the implementation of the occurrence of the RAB 1 signal) and the subsequent reset of the second 56 flip-flop (reset of the RAB 2 signal) . In the installation of the first trigger 55 and the reset of the second trigger 56, the second pairs of information and control inputs, respectively, of the first switch 47 and the fourth 50, participate. The automatic mode control unit 14 stops with the completion of the MODE-3 mode in state 17, after passing through state 16, and generates a switch signal, coming from the output of block 14 to the control output 33 of the device.

Claims (1)

Invention Formula Device for displaying information. on auth. St. No. 1403058, that is, in order to increase reliability by providing automated monitoring of the device’s performance without the participation of printers, multiplexer, third counter, AND element, first and second element group OR, mode control block, the first group of inputs of which are mode setting inputs control, information inputs multi-. The typelexer is connected to the corresponding outputs of the central switch, the outputs of which are connected to the second group of inputs of the mode control block, the first output of which is connected to the reset input of the third counter, the second output of the mode control block and the multiplexer output, the control outputs of the device, the third and fourth outputs of the mode control block connected to the first inputs of the elements OR of the second group, the second inputs of which are the control inputs of the second group of the device, the outputs of the elements of the PTI of the second The groups are connected to the information inputs of the switching unit, the fourth output of the mode control unit is connected to the recording resolution of the multiplexer, the building input of which is connected to the counting input of the third counter and the first output of the control unit, the outputs of the third counter connected to the first input of the mode control unit; the outputs of the group of which are connected respectively to the first inputs of the OR elements of the first group, the outputs of which are connected to the information the moves of the second switch, the second inputs of the OR elements of the first group are the control inputs of the first group of the device, the third group of inputs and the second input of the mode control unit are connected respectively to the output group of the switching unit and the device reset input. MODE MODE2 Inf from block a INF-52 from the block izbloki 26Ush / U / L1 F1G x1 / j / PA62 G- / 38 9 SWITCH G TV in, P (A5ff, o, i7 / 7 33 GTV2I r1fflokii8 - dblokiSH.b block 13 D V4 5 i5 block four/ Sh т2П ЗПР1И ЗПР2И ПЧЛИ Phage.1 J7B2H ЗПР2) 1 Fi & W 6 l / f CRA OCTAH, W U3S / LOK07. iZb / OK09 / -, schps TR6VMESH 7g Tcp P fanucb yCJQlKA TR5VNESH SGRPZPR / 8LINF bMKiifiCi-t- c INF 5 - 4Ci-- 5 ,, yrrrw -,; / v- 62 ft g PRM, 9 7WP  6/0 i .- 5mi / po§KO локи З STRZPRG OUT CRA Phage.8