SU907535A1 - Data recording device - Google Patents

Description

(5) DEVICE FOR RECORDING INFORMATION

I

The invention relates to computing, in particular to input-output devices.

A device for recording information from one source to several receivers is known. It contains interface blocks, control, parameter matching, address encoder, exchange register, clock frequency generator, channel switch, transmission channel selection block and output mode setting block operating in time division mode, transmitting data sequentially to each of the receivers, and -, j this having a low speed.

However, when one of the receivers fails, the known device does not guarantee the preservation of valuable information transmitted at this moment.

Closest to the invention is a recording device built on the TsAGI interface. Device

Claims (2)

contains two triggers, trigger register and two sets of keys. Single outputs of register triggers are connected in parallel with the key set inputs. If the receivers are ready to receive information, then each of them sends to the source input a ready signal. In this case, the information code is entered into a trigger register, and a pulse of the first sample is sent to the input of the first receiver, which opens the first set of keys, and the information code is written to the first receiver. The signal of the first sample is also fed to the zero input of the first trigger. However, this trigger is in the zero state after the initial reset, and therefore no changes occur. Upon termination of the reception of the information code on the falling edge of the first sample of the device; The control unit of the first receiver sends a pulse signal to the single input of the first trigger. which establishes it in a uniform state. At this time, the source control device clears the register and enters the code for the following information. The source perceives the signal from the single arm of the first trigger as the readiness of the first receiver to receive the second code. If necessary, the receiver again issues a signal of the first sample, which, unlike the previous one, sets the first trigger to the zero state, otherwise the process repeats. Information is transmitted to the second receiver in a similar way, but the source sends a second choice signal to the control inputs of the second set of keys and the zero input of the second trigger. Record lp -: only goes to the second receiver 2. However, to write the same information code to both receivers, you need to transmit twice, because the device operates in time division mode. Consequently, compared with the simultaneous recording in two receivers, it takes about twice as much time. In addition, if one of the receivers is out of order, the device does not automatically record information into the remaining second receiver and signaling the failure of this receiver. Thus, the device has a lack of speed and reliability. The purpose of the invention is to increase the speed and reliability of the device. This goal is achieved by the fact that the device for recording information, containing a source of information, is connected to the input of the register, the output of which is connected respectively to one of the inputs of the keys of the first and second groups, the outputs of which are connected to the first inputs of the first and second information receivers, respectively the first outputs of which are connected to other inputs of the keys, respectively, and the second outputs are connected to the zero inputs of the corresponding triggers, five AND-NOT elements, a mode control unit, a one-shot and one a switch, than the first inputs of the first and second elements AND-NOT are connected to the outputs of the switch, the second inputs of these elements are connected to the outputs of information receivers, the third inputs of the first and second elements AND-NOT are connected to the output of the information source, the fourth inputs of these elements and the second inputs The third and fourth NAND are connected to the outputs of the mode control unit, the outputs of the first and second elements of the NAND are connected respectively to the single inputs of the first and second triggers, the single outputs of which are connected to the first the moves of the third and fourth elements AND-NOT, the first and third inputs of the mode control block and the inputs of the first and second information receivers, zero inputs of the first and second triggers are connected respectively to the second and fourth inputs of the mode control block, the outputs of the third and fourth AND-NOT elements are connected with the inputs of the first element NAND ,, whose output is connected to the input of the one-shot, the output of which is connected to the input of the source of information. In addition, in order to automatically switch to one-receiver operation mode from the two-receiver operation mode when one of them fails, the mode control block contains the fourth, fifth, sixth, seventh, eighth and tenth elements AND-NOT, multivibrator, multi-section A single binary counter, an AND element, two inverters, the third and fourth triggers, and an alarm element, the first and second inputs of the fourth and the first input of the fifth AND-NOT elements are block inputs, the outputs of these elements are connected to the inputs of the sixth element and the first o and the second inverter, the output of the sixth element is connected to the zero output of the multidisk binary counter and to the fourth input of the ninth element, the first input of which is connected to the output of the multivibrator, and the second and third inputs to the zero outputs of the third and fourth triggers, single outputs of the multidisc binary the counter is connected to the inputs of the element I, the output of which is connected to the first inputs of the seventh and eighth elements AND-NOT, to the second inputs of which the outputs of the first and second inverters are connected, and the outputs of the seventh 59 g O and the eighth And-Mt elements are connected to the single inputs of the third and fourth triggers, the single outputs of which are connected to the inputs of the signaling element, and their outputs are the outputs of the block. FIG. 1 is a block diagram of the device for recording information in FIG. 2 is a mode control unit, in FIG. 3 time diagrams of the device for recording information during normal operation of both receivers and in the event of violation of the normal mode in one of the receivers. A device for recording information contains a Striker register) 10, at the input of which from the information source 2 information is received to be transmitted. The outputs of register 1 are connected in parallel with the inputs of the first 3 and second C groups. The keys 3 of the first group open the sampling signal, which arrives at their control input 5 from the first information receiver 7, and the keys k of the second group, the sampling signal that arrives at their control input 6 from the second Information receiver 8. The outputs of the keys 3 are connected to the input of the receiver 7 information, and the outputs of the keys k - with the input of the receiver 8 information. In addition, there are a number of four-input elements AND-HE 9 and 10, two Triggers 11 and 12 of type RS, a mode control unit 13, three AND-NOT two-input elements, a single vibrator 17 and a switch 18. At the same time, the first inputs of the NAND elements The 9 and 10 are connected to the outputs of the switch 18. The second inputs of the NAND elements 9 and 10 and the zero inputs 1 and 20 of the flip-flops 11 and 12 are connected to the outputs of the receivers 7 and 8, which give negative signals to the signals, respectively, to the inputs 5 and 6 of the keys 3 and. The third inputs of the IS-NE elements are connected to the source .2 of information, which issues a signal via bus 21, which requires receiving information. The fourth inputs of the elements AND-NOT 9 and 10 and the second inputs of the elements AND-NOT AND 15 are connected to the outputs 22 and 23 of the control unit 13. The outputs of the elements AND-HEN 9 and 10 are connected to the single inputs of the flip-flops 11 and 12. The single output 2k of the flip-flop 1 is connected to the first input of the NAND-Tt element, the first input of the control unit 13, and also to the input of the first receiver 7 of the information. The zero output 25 of the trigger 1-1 is connected to the second input of the control unit 13. A single output 26 of the trigger 12 is connected to the third input of the control unit 13, to the first input of the I-flF 15 element, as well as to the input of the second information receiver 8. The zero output 27 of the trigger 12 is connected to the fourth input of the control unit 13. The outputs of the elements AND-NOT AND 15 is connected to the inputs of the element-NOT 16, the output of which is connected to the input of the one-shot 17. The output 28 of the one-shot 17 is connected to the input of the source 2 information. Vlok 13 control mode consists of five two-input elements AND-NOT) of the four-input element AND-NOT 3, multivibrator 35, multi-bit binary counter Zb, multi-input element I 37, four inverters, two 1-h55-triggers 2 and +3 and element of signalization, consisting of a reset button kk of two signal lamps 15 and 46 and two resistors. The first input element 29 is connected to a single output of the trigger 11, and the second to zero output 27 of the trigger 12. The first input of the element 30 is connected to the single output 26 of the trigger 12, and the second to the zero output 25 of the trigger 11. The output of the element 29 is connected to the first input element 3 and with the input of the inverter 38, and the output of the element 30 with the second input of the element 31 and the input of the inverter 39. The output of the element 31 is connected to the input that sets the counter 36 in О, and the output of the first input of this element multivibratsa 35. Single outputs tr the meter counter Zb is connected to element 37, the output of which is connected to the first outputs of elements 32 and 33. The second inputs of these elements are connected respectively to the outputs of inverters 38 and 39. The output of element 32 is connected to the single input of trigger 2, and the output of element 33 is connected to the single input trigger A3. Zero inputs of the trigger 2 and 43 are connected to the alarm element. The device provides information recording in two receivers, which can occur both simultaneously and with a certain shift T, not exceeding the allowable shift tTi p between the moments of recording in one and the other receivers. It is also possible to record in l bout one receiver. When recording to two receivers, the switch 18 is controlled manually or remotely, at both outputs outputs signals equal to one. Prior to transmission, input signals at inputs 5 and 6 and bus 21 are equal to zero, and at inputs 19 and 20 - to unit. Triggers P, 12, A2, and 43 are in the zero state. This state is shown on the left side of the timing diagram depicted in FIG. The operation of the device begins with the entry of the first code of the transmitted information into the register 1. In this case, the signal 21 becomes equal to one, and the output signals of the elements 9 and 10 are zero. Triggers 11 and 12 simultaneously go to one state. At the inputs of receivers 7 and 8 of the information, signals are output by outputs 2k and 26 equal to one. As a result, the signals at the outputs of the elements And and 15 take the value of o and at the output of the element 16 - 1, Having received the signals at the outputs 24 and 26 from the single outputs of the flip-flops 11 and 12, the information receivers 7 and 8 send positive pulses to the inputs 5 and About the keys of the groups 3 and 4, These pulses can arrive simultaneously or with a shift O, the cause of which can be different speed, occupation or failure of receivers 7 and 8 information. FIG. 3 shows time diagrams of the device operation with allowable and unacceptable shifts in conditions when receiver 7 sends a signal to input 5 rather than receiver 8 to input 6. Time diagrams placed on the left correspond to the case when the T delay of the signal at input 6 with respect to the signal at input 5 is less critical, as 1 Skr FIG. Figure 3 on the right shows the time diagrams for T 7T); p, which is a violation of the recording mode from the side of the second receiver. The ratio between and is monitored by the control unit 13, whose operation starts under the condition that the triggers 11 and 12 are in opposite opposite states. In this case, this condition occurs when a positive impulse is received at input 5 and negative at input 19. An impulse at input 5 opens the keys of group 3) and information is written to the first receiver 7. The impulse at input 19 sets trigger 11 to 0. From this moment begin processes in block 13. However, the arrival of a positive pulse to input 6 and a negative pulse to input 20 after an interval of time causes opening of the group keys and resetting trigger 12. As a result, the information is written to the receiver, and the processes in block 13 are timely The signals are terminated and the signals at outputs 22 and 23 remain equal to one. Resetting flip-flop 12 triggers a signal on output 26 to the zero state, so it is output. element 15, the signal becomes one. At this moment, the signals at both inputs of the element 16 are equal to one, and its output signal goes to O, which causes the one-shot 17 to be dropped, at the output 28 of which a positive pulse occurs. This pulse enters information source 2 and resets the signal on bus 21 to zero. After that, new information is entered into register 1, the signal on bus 21 again becomes equal to one, and the process is then repeated. The time diagram shown in FIG. 3 to the right corresponds to the case when the signal at input 6 from the receiver about the information arrives with a delay that exceeds the allowable, that is, e. In this case, the processes in the control unit 13 end in time, and at the output 23 of this block, the signal passes from a single state to a zero state. The signal at the output of the element 15. becomes equal to one, and at the output of element 16 becomes zero, and the one-shot 17 produces an impulse that the device continues to work on. Equating the zero signal at the output 23 and the first input of the element 10 prevents the signal from passing through the bus 21 through this element, so that work with the second receiver becomes impossible, and the recording to the first receiver continues. In the event of a violation of the operation mode from the first receiver's receiver, the delay of signals at inputs 5 and 19 results in the appearance of a zero signal at output 22. As a result, the first receiver will be turned off and recording to the second receiver will continue. If the recording is necessary only at the first receiver, the switch 18 outputs a signal equal to one, to the input of element 9 and is equal to zero, to the input of element 1. When recording to the second receiver only, the switch 18 outputs the polarity signals that are inverse of the specified one. In the first case, element 10 is locked with a zero signal, and the first receiver is operating. In the second case, the element 9 is locked, and the second receiver is working. The control unit 13 begins to operate if the triggers 12 and 11 are in opposite states. In this case, the signals at the outputs 2k and 27 at the outputs 2b and 25 are simultaneously equal to one. The signal at the output of element 31 also becomes equal to unity. All signals at the input of element 32 are also equal to one, and the pulses from the multivibrator 35 begin to pass through element 32 to the input of the counter Zb. If there was a delay in the output of a pulse at output 6, then the signals at outputs 2 and 27 are equal to unity. At this time, the signals at outputs 25 and 26 are zero. Therefore, the output of element 29 is O, and the output of element 30 is 1. The signal at the output of element 31 becomes positive. Due to this, the pulses of the multivibrator can pass through the element 32 to the input of the counter Zb. After time, the counter Zb is completely filled and a positive signal arises at the start of the element 37. At this time, the signal at the output of the inverter 38 is negative, i.e. element 32 does not pass the signal issued by element 37. The signal at the output of the inverter 39 is positive. Therefore, the element 33 transmits a signal from the element 37. As a result, a signal is received on the unit I of the flip-flop 43 that is equal to zero, which will set the trigger to the unit state. At the same time, the signal lamp 46 will be turned on via inverter 1. The second receiver does not work, and a zero level signal will be output from the output 23 of the zero PL trigger, which closes the passage of pulses to the input of the BZ counter and the demand signal coming through bus 21 the unit input of the trigger 12, and also creates at the output of the element 15 a positive potential. Due to this, the BQ recording of the second receiver is stopped, and it is only possible to work with the first receiver. If the delay X is significant, then the signal at input 20 sets the trigger to the zero state before element 37 outputs its signal. Both flip-flops 11 and 12 are in the same (zero) state. Elements 29 and 30 provide positive signals, and element 31, a negative signal, which closes the passage of pulses through element 3 and resets counter 3. The device returns to its original state. The introduction of additional nodes: two four-input elements AND-NOT of the mode control block, three two-input elements of the IS-NOT, a mode control block, three two-input elements of the IS-NOT, one-shot and mode switch allows you to double the speed of the device. A mode control block consisting of five two-input AND-NES elements, a multivibrator, an n-bit binary counter, a four-input N-element element, four inverters, two triggers, two signal lamps, two resistors and a normally open button provides automatic transition in the mode of operation with one receiver, if another failed, and the alarm about the occurrence of a failure, i.e. increases the reliability of the device. The technical and economic efficiency of the present invention lies in the fact that it provides both simultaneous and multi-temporal parallel recording of information from one source into two receivers. In the event of a failure of one of the receivers, the operation with the other receiver and signaling of the failure is automatically provided. Thanks therefore, the speed of writing information is doubled. Claim 1. A device for recording information containing a source of information. connected to the input of the register, the output of which is connected respectively to one of the inputs of the keys of the first and second groups, the outputs of which are connected to the first inputs of the first and second information receivers, respectively, the first outputs of which are connected to other inputs of the keys, respectively, and the second outputs are connected to zero inputs of the corresponding Triggers, characterized in that, in order to improve the speed and reliability of the device, five I-NOT elements, a control unit, a one-shot and a one-shot and a switch, and The first inputs of the first and second elements of the NAND are connected to the switch outputs, the second inputs of these elements are connected to the outputs of the information receivers, and the third inputs are connected to the output of the information source, the fourth inputs of these NAND elements and the second inputs of the third and fourth elements of the NAND connected to the outputs of the mode control unit, the outputs of the first and second elements of the NAND are connected respectively to the single inputs of the first and second triggers, the single outputs of which are connected to the first of the third and fourth elements The first and third inputs of the mode control block and the inputs of the first and second receivers of information are NOT AND the zero outputs of the first and second triggers are connected respectively to the second and fourth inputs of the mode control block, the outputs of the third and fourth elements are AND-NOT connected to the inputs of the fifth element AND-NOT, the output of which is connected to the input of the one-shot, the output of which is connected to the input of the information source; 2. The device according to claim 1, wherein the mode control unit contains the fourth, fifth, siesta, seventh, eighth and ninth elements AND-NOT multivibrator, binary counter, AND element , two inverters, the third and fourth triggers, and a signaling element, the first and second inputs of the fourth and the first inputs of the fifth AND-YE elements are the inputs of the block, the outputs of these elements are connected to the inputs of the sixth AND-NOT element and the inputs of the first and second inverters, the output of the sixth element is NOT connected to the zero output of the multi-bit binary with the fourth input of the ninth element NAND, the first input of which is connected to the output of the multivibrator, and the second and third inputs to the zero outputs of the third and fourth triggers, the single outputs of the binary counter are connected to the inputs of the And element whose output is connected to the first inputs of the seventh and eighth elements AND-NOT, to the second inputs of which the outputs of the first and second inverters are connected, and the outputs of the seventh and eighth elements AND-NOT are connected to the single inputs of the third and fourth triggers, the individual outputs of which s are connected to the inputs of the alarm element, the outputs of which is yuts block outputs. Sources of information taken into account in the examination 1, USSR Author's Certificate W 526880, cl. G About F 3/0, 1975. 2. Guidance technical material OCH-2-71. United Information and Computational System (EIAS) TsAGI. Unified system of communications and signals between devices of objects and channel of input-output of UIABS (prototype). V.