SU824417A1 - Time interval shaping device - Google Patents

Description

The invention relates to pulsed technology and can be applied in software and logical control complexes of technological units and installations.

A device for generating ⁵ time intervals is known, comprising a reference frequency generator, a frequency divider, a valve, a time interval counter, a trigger, a scale register, and a multiplexer [jj.

A disadvantage of the known device is its functional limitation, which consists in the fact that it can operate only in one blocking mode _{15 of} generating the output signal. _ ·

Of the known devices, the closest in technical essence to the proposed device is a Φορ-jg time interval device containing a reference frequency generator ^ divider, multiplexer, start trigger, two control valves, a time interval counter, and a trigger trigger repeater [U].

However, the known device can only operate in a mode that blocks delays and a non-reverse mode of counting triggering pulses and cannot work in a cumulative mode and a reverse mode of counting triggering pulses (with increasing or subtracting a unit), which narrows its functionality and limits its use in complexes of program · logical and logical control of technological units and installations. ,

The purpose of the invention is the expansion of the functionality of the device.

This goal is achieved by the fact that in the device for forming time intervals containing a reference frequency generator * the output of which is connected to the counting input of the divider, a multiplexer, a trigger, a single installation input

Which is connected to the control bus of the device, and its zero output is connected to the information input of the first control valve, the control input of which is connected to the direct output of the counter-time intervals, and the output is connected to the zero installation input of the trigger-repeater :, a single installation input of which connected to a single output of the trigger trigger and the information input of the second control valve, the control input of which is connected to the inverse output of the counter of time intervals, and the output with senior bits of the multiplexer and information inputs, the lower bits of the information inputs of which are connected to the outputs of the divider, and the output is connected to the counting input of the time interval counter, the first, second, and third additional multiplexers and a program register are introduced, the information outputs of which are connected to the setup inputs of the time interval counter, and its control output is connected to the younger times. by the rows of control inputs of the main multiplexer and control inputs of the first, second, and third additional multiplexers, the output of the last of which is the output of the device, its gate input is connected to the inverted output of the trigger therapist and the gate input of the program register, its first information input is connected to direct ^ a. the second information input with inverse outputs of the time interval counter and the gate input of the second additional multiplexer, the output of which is connected to the zero installation input of the trigger trigger, the synchronizing input of which is connected to the output of the first additional multiplexer, the information input of which is combined with the information input of the second additional multiplexer and connected to the control device bus.

In FIG. 1 shows a structural diagram of the proposed device; in FIG. 2 is a timing diagram of its operation.

The device comprises a reference frequency generator 1, a divider 2, a main multiplexer 3, a program register 4, first and second additional multiplexers 5 and 6, a trigger 7, control valves 8 and 9> a counter 10 time intervals, a trigger repeater 11, a third additional multiplexer 12, information and control bus 13 and 14, the output 15 of the device.

When forming time intervals for the passage time of a given number of pulses of the reference frequency, the device operates as follows.

B. In the blocking mode, the start of the time interval is determined by the unitary triggering of the trigger 7 by the signal at its single installation input from the control bus 14 of the device. Does the signal from the single output of the trigger 7 trigger set the trigger repeater 11 to a single state _? through its single installation input and through the control valve 8 allows the passage of the frequency signal from the generator 1 of the reference frequency through the divider 2 and the main multiplexer 3 to the input of the counter 10 time intervals. At the control input of the control valve 8, a resolving unit potential is established from the inverse output of the counter 10 time intervals, the inverse and direct outputs of which change their states at the end of the count of input pulses.

The signal from the inverse output of the trigger-repeater 11 is supplied to. gating the input of the additional multiplexer 12 as an enable signal to start generating the output signal of the device and to the gate input of the program register 4 as a signal to prohibit the reception of information in the program register 4 from the information bus 13 of the device.

The formation of the output signal at the output 15 of the device is carried out by an additional multiplexer 12 in accordance with the information on its second information input and the blocking mode code on its control inputs, which comes from the control outputs of the program register 4. At the same time, the signal from the inverse output of the counter 10 time intervals the beginning of the development of the time interval passes to the output 15 of the device in the form of a unit potential.

At the end of working out a given time interval with a counter of 10 time intervals, its inverse output changes its state from one to zero, as a result of which an output signal is generated at the output of an additional multiplexer 12 as a zero potential.

The trigger signal from the control bus 14 of the device may have a duration of less or more than a specified time interval (see Fig. 2A).

The blocking of any access to the device until the time interval is processed and the trigger signal does not change its state from one to zero, is carried out as follows. The signal from the zero output of the counter 10 time intervals, arriving at the gate input of the additional multiplexer 6, prohibits the passage of the zero trigger signal from the control bus 14 of the device through this multiplexer 6 to the zero installation input of the trigger 7 for the entire time the counter 10 works out the time. In addition, the installation scheme in the initial zero state of the trigger-repeater 11 is made so that the installation in the zero state is made by its zero installation input by the control valve 9 when the single signals at both of its inputs from the inverse, the output of the trigger 7 trigger and direct output counter 10 time intervals. The trigger 7 is set to the zero state by its zero installation input by an additional multiplexer 6 if there is zero potential multiplexer 6 on the gate input (the counter 10 time intervals worked out the specified time interval), on its control press and on the left input there is an information blocking code input - a start-up signal.

these conditions when changing

When the trigger signal is from one to zero on the control bus 14 of the device, the trigger 7 of the trigger and the trigger repeater I 1 are set to the initial zero state, as a result of which the hell appears on the gate input of the additional multiplexer 12

824417 - _{6, the} unit potential prohibiting the formation (end) of the time interval, which is simultaneously permissive for entering information into the program register 4- from the device information bus 13, thereby preparing the device for a new work cycle.

Thus, in the blocking mode, the output 15 of the device is set. the unit potential builds up at the beginning of the working out of the time interval by the counter 10 and passes from the unit to zero at the end of the working out of the time interval. Access to the device is blocked on. all the time spent working on the time interval or, in the case when the duration of the triggering signal is longer than the time spent working on the time interval, for the whole time ® the duration of the operation of a single triggering signal

In the delay mode, the formation of the output signal at the output of the device 15 is carried out by an additional multiplexer 12 in accordance with the information on its first information input and the delay mode code on its control input.

From the moment of starting up for the whole time the time interval is worked out, the counter 10 sets the output potential at zero'15 due to the zero potential at the first information input of the additional multiplexer 12, which is set by the direct output of the counter 10 time intervals. .

After practicing the time interval with the counter 10, the signal at its direct output changes from zero to a single state, as a result of which a unit potential is established at the output 15 of the device. In this mode, the trigger signal on the control bus 14 of the device must have a duration exceeding the duration of the specified time interval; otherwise, at the output 15 of the device, the duration of the unit potential at the end of the time interval will be very small.

The initialization of the trigger trigger 7 is carried out similarly to the blocking mode by an additional multiplexer 6. In this case, a delay mode code is supplied to its control input, and a signal from the control bus 14 of the device is supplied to the information input.

The transition of the trigger signal on the control bus 14 of the device from a single to a zero state after the completion of the time interval, similarly to the blocking mode, leads to the initialization of the trigger 7 trigger and trigger therapist 11. In this case, the unit potential from the zero output of the latter is a prohibition signal for additional multiplexer 12, as a result, zero potential is established at the output of 15 VA devices.

Thus, in the delay mode at the output 15 of the device for the entire time the time interval is worked out, the counter 10 sets the zero potential, and at the end of the time period worked out at the output. 15 of the device, a unit potential is established, which is held yes until the trigger signal on the control bus 14 of the device passes from a single to a zero state. The access to the device, as well as the previous one, is blocked for the entire time the time interval has been worked out and the duration of the operation of a single trigger signal on the control bus 14 of the device (see Fig. 2b).

In the accumulating mode, the signal at the output 15 of the device is formed by an additional multiplexer 12 in accordance with the information on its first information input and the accumulating mode code, on its control input (see Fig.2B ^

The transition of the trigger signal on the control bus 14 of the device from a single to a zero state during the formation of a time interval leads to the setting of a trigger 7 to a zero state, a single output of which through a control valve 8 prevents the passage of the frequency signal to the input of the counter 10 time intervals.

Setting the trigger 7 to the zero state is carried out at the same time by its synchronizing input by the signal from the output of the additional multiplexer 5, the control input of which receives the accumulating mode code from the control outputs of the program register 4, and to the information input from the control bus 14 of the device.

In this case, during the transitions of the trigger signal from one to zero $ until the transition from zero to one. Trigger 7 is set to zero.

Thus, in this mode, the process of accumulating 10 transit times of a given number of pulses of the reference frequency is carried out.

The device operates in a reverse mode of counting triggering pulses, i.e. the formation of time intervals for the time it takes for the set number of triggering pulses to pass is carried out with a unit increment or subtraction. As input counting pulses, not pulses from the output of the divider · 2 are used, but triggering pulses with control pulses. barking device 14. The formation of the output signal at the output 15 of the device is performed by an additional multiplexer 12 in accordance with the information on its second information input and the mode code for counting triggering pulses at its control input. The mode of operation of the counter30 time slots for incrementing or subtracting is determined by the signal at its control input coming from the control .. outputs of the program register 4.

Setting the trip, start-up mode 7 to zero is carried out at the same time by its · synchronizing input by a signal from the output of the additional multiplexer 5, to the control input of which the account mode code is received from the control output of the software · register 4, and to the information input of the control bus 14 of the device, t .e each transition of the trigger signal on the control bus 14 of the device from zero to a single state; on the contrary, it will be recorded by the transition of trigger 7 to a single and zero state. The trigger repeater 11 will not change its ⁵⁰ state, since setting it to.

the zero state until the end of the time interval is blocked by a zero potential at the control input of the control valve 9 ^ss from the direct output of the counter 10 time intervals. Switching signals of the trigger 7 start from its single 'output through the control valve 8

S24417 10 are broadcast on> senior. bits of control and information inputs of the main multiplexer 3, from the output of which they go to the input of the counter 10 time intervals. · The end of the time interval processing is similar to the blocking mode described above.

Thus, a reverse mode of counting the number of triggering pulses on the control bus 14 of the device of various durations and repetition frequencies is provided, and a time interval corresponding to the passage time of the specified number of triggering pulses is formed (see Fig. 2d).

The proposed device compares favorably with the known ^ because it allows you to work not only in blocking and delay modes, but also in the accumulating and reverse modes of counting triggering pulses, which reduces the number of timers for solving technological process control problems, as a result of which it finds a wide application in software and logical control complexes of technological units and installations of various industries.

Claims (2)

The invention relates to a pulse technique and can be applied in software and logic control complexes of technological units and installations.  A device for forming time intervals is known, comprising a reference frequency generator, a frequency divider, a valve, a time counter, a trigger trigger, a scale register and an LQ multiplexer.  A disadvantage of the known device is its functional limitation, which means that it can work only in one blocking mode of generating the output signal.  . .   Of the known devices, the closest in technical essence to the present invention is a time interval device, comprising a reference frequency generator divider, multiplexer, start trigger, two control valves, time counter, repeater trigger 2j.  However, the known device can work only in the mode of blocking delays and irreversive mode of counting trigger pulses and cannot work in accumulative mode and in reverse mode of counting trigger pulses with or incrementing.  subtraction of units), which reduces its functional capabilities and limits its use in software and logic control complexes of technological units and installations.  The purpose of the invention is to expand the functionality of the device.  This goal is achieved in that the device for forming time intervals, containing the reference frequency generator, whose output is connected to the counting input of the divider, multiplexer, trigger trigger, a single installation input 3 of which is connected to the control bus of the device, and its zero output is connected to the I1 terminal input the first control valve, the control of which input is connected to the direct output of the time counter, and the output to the zero installation input of the repeater trigger ;; An input of which is connected to a single output of a trigger trigger and an I-information input of a second control valve, the control input of which is connected to an inverse output of a time counter, and an output - with senior bits of the control and information inputs of a multiplexer; the lower bits of the information inputs of which connected to the outputs of the divider, and the output is connected to the counting input of the time interval counter, the first second and third additional multiplexers and a software register, information Exit us which is connected with setting counter vhodtsh §remennyh intervals and controlled in schy.  its output is connected to the offset bits of the control inputs of the main multiplexer and the control inputs of the first, second, and third additional multiplexers, the last output from KOTOpiox is the output of the device strobe its input from.  Dinene with an inverse trigger trigger output and a gated input to the program register, its first information input is connected to the direct a.  the second information input with inverting outputs of the time counter and gating the input of the second additional multiplexer, the output of which is connected to the zero set trigger trigger input whose synchronous input is connected with the output of the first additional multiplexer, whose information input is combined with the information input of the second additional multiplexer and connected to the control bus of the device.  FIG.  I shows a block diagram of the proposed device; in fig.  2 - time diagram of his work.   The device contains the generator 1 of the reference frequency, the divider 2, the main multiplexer 3, the program register 4, the first and second additional multiplexers 5 and 6, the trigger trigger 7 4, control valves 8 and 9. .  counter 10 time intervals, trigger repeater I1, third additional multiplexer 12, information and control (left bus 13 and 14, output 15 of the device.  When the time intervals are formed according to the passage time of the number of pulses of the reference frequency specified by the Morq, the device operates as follows.   AT.  in the blocking mode, the start of time interval testing is determined by switching to a single state of the trigger 7 by a signal at its single installation input from the control bus 14 of the device.  The signal from the single trigger trigger 7 sets the trigger repeater 11 to the single state, by its single installation input and through the control valve B allows the frequency signal from the generator 1 of the reference frequency to pass through the divider 2 and the main multiplexer 3 to the counter input 10 time intervals.  The control input of the control valve 8 is set at the same time allowing a single potential from the inverse output of the counter 10 time intervals, the inverse and direct outputs of which change their state after the end of the counting of the input pulses.  The signal from the inverted output of the repeater trigger 11 is fed to.  gateway vbd additional multiplexer 12 as a permitting signal to start forming the output signal of the device and to the gate input of software register 4 as a signal to prohibit receiving information into program register 4 from the information bus 13 of the device.  The output of the device output 15 is generated by an additional multiplexer 12 in accordance with the information on its second information input and the blocking mode code on its control inputs, which are nocTynaet from the control outputs of the program register 4. . In this case, the signal from the inverse output of the counter is 10 time intervals at the beginning of the time interval mining. It passes to the output 15 of the device in the form of a single potential.  After the completion of a specified time interval by the 10 time intervals counter, its inverse output changes its state from one to zero, as a result of which the output of the additional multiplier of 12 forms: 1 signal of the time interval completion in the form of zero potential.  The triggering signal from the control bus 14 of the device may have a duration shorter or longer than a specified time interval (see  FIG.  2a).  The blocking of any process to the device until the time interval has been completed, the triggering signal does not change its state from one to zero, and is carried out in the following way.   The 10 timeslots from the zero output of the counter, which comes to the gate input of the additional multiplexer 6, prohibit the zero time signal from the control bus 14 of the device through this multiplexer 6 to the zero setting input of the trigger 7 for the whole time of the counter working for the 0 time intervals.  In addition, the setup circuit for the initial zero state of the trigger-repeater.  11 is made so that the installation, to the zero state, is performed at its zero installation input by the control valve 9 when the single signals from its two inputs coincide from the inverse, the output of the trigger 7, and from the direct output of the counter 10 time intervals.  The triggering of the triggering 7 is performed at its zero installation input by an additional multiplexer 6 in the presence of a gate potential of the multiplexer 6 of zero potential (counter 10 time intervals worked the specified time interval), on its control input; e is the blocking code -mode and on the information input - zero trigger signal.  Under these conditions, when the trigger signal changes from one to zero on the control bus 14 of the device trigger 7 trigger ri, the trigger repeater 1 is set to is. the initial zero state, as a result of which, at the gate input of the additional multiplexer 12, there appears 7 4 a unit potential prohibiting the formation (end) of a time interval, which is at the same time allowing for entering information into the programs. The new register 4 is from the information bus 13 of the device, the MBSM prepares the device for a new work cycle.  Thus, in blocking mode, at the output 15 of the device, the device is set.  A single potential is applied at the beginning of the RTP time interval by the counter 10 and changes from one to zero at the end of the time interval.  Device access blocked on.  the whole time of testing the time interval -or, in the case when the duration of the triggering signal is longer than the time of the time interval, for the entire duration of the single triggering signal In the delay mode, the output signal of the device output 15 is generated by an additional multiplexer 12 in accordance with the information on its first informational input and the delay mode code at its control input.  From the time of start-up, the zero potential is established by the counter 10 at the device output 15 for the entire time of the time interval processing, due to the zero potential at the first information input of the additional multiplexer 12 set by the direct output of the counter 10 time intervals.  .   After working out the time interval counter 10 signal on it. the direct output changes from HyjieBoro to a single state, with the result that a unit potential is established at the output 15 of the device.  In this mode, the triggering signal on the device control device 14 must have a duration longer than the specified time interval, otherwise, at the device output 15, the duration of a single potential after the time interval has been completed will have a very small value.  The resetting of the trigger 7 to the initial zero state is performed similarly to the blocking mode by an additional multiplexer 6.  In this case, a delay mode code is supplied to its control input, and an information signal from the control bus 14 of the device is sent to the information input.  The transition of the trigger signal on the control bus 14 of the device from a unit to the zero state after the completion of the time interval processing, similarly to the blocking mode, causes the trigger trigger 7 and the repeater trigger 11 to be reset.  At. This single potential from the zero output of the latter is a prohibitory signal for the additional multiplexer 12, as a result of which the output potential of the device 15 is set to zero. Thus, in the delay mode at the output 15 of the device, the potential 10 sets a zero potential, and the end of working out the time interval at the exit.  15, a unit potential is established, which is held for as long as the trigger signal on the control bus 14 of the device passes from the unit to the zero state.  The device access, as in the previous mode, is blocked for the entire duration of the time interval and the time of a single trigger signal on the control bar 14 of the device (see  FIG. 2b).   In the accumulating mode, the signal is formed at the output 15 of the device by the additional multiplexer 12 in accordance with the information on its first information input and the code of the accumulating mode, on its control input, see.  FIG. 2B The transition of the trigger signal on the control bus 14 of the device from one to the zero state during the formation of the time interval results in the trigger trigger 7 being set to the zero state, the unit output of which through the control valve 8 prevents the frequency signal from entering the counter 10 time signal intervals.  A three-state start-up 7 is set to zero at its synchronization input by a signal from the output of the additional multiplexer 5, the control input of which receives the accumulation mode code from the control outputs of the program register 4, and information 78.  The input is from the control bus of the device.  In this case, at the time of transitions of the trigger signal from one to zero before the transition from zero to one. the trigger 7 is set to zero.  Thus, in this mode, the accumulation time of the specified number of pulses of the reference frequency is accumulated.  The operation of the device in the reverse mode of the counting trigger pulses, t. e.  the formation of time intervals according to the time of passage of a specified number of trigger pulses, is carried out with increasing or subtracting one.  As input counting pulses, not pulses from the output of divider 2 are used, but trigger pulses from control device 14 of the device.  The output signal at the output 15 of the device is generated by completing the multiplexer 12 in accordance with the information on its second information Input and the code of the counting mode of trigger pulses on its control input.  The mode of operation of the counter 10 time intervals for increasing or subtracting in this case is determined by the signal at its control input from the control outputs of the program register 4.  A trip to the zero state, a start trigger 7, is made at its synchronization input by a signal from the output of an additional multiplexer 5, the control input of which receives the counting mode code from the control output of software register 4, and the information input of the control bus 14 devices, t. Each transition of the trigger signal on the control bus 14 of the device from the zero to one state and, in turn, will be detected by the transition of the trigger 7 of the start to the one and zero state.  The repeater trigger 11 will not change its state, since it is set to.  the zero state before the end of the time interval development is blocked by the zero potential on the control V go of the control valve 9 from the direct output of the counter 10 time slots.  The switching signals of the trigger 7 from its single output through the control valve B 9 are transmitted to the oldest, control and information bits of the main multiplexer 3, from the output of which they are fed to the counter input of 10 time intervals.   The end of the time interval is similar to the blocking mode described above.  Thus, a reverse counting mode of the number of trigger pulses on the control bus 14 of the device of various durations and repetition rates is provided, and a time interval is formed corresponding to the travel time of the specified number of trigger pulses (see  FIG. 2d).  .  The proposed device favorably differs from the known ones, as it allows to work not only in blocking and delaying modes, but also in accumulating and reversing mode of counting triggered pulses, which allows reducing the number of timers for solving process control problems, as a result This is why it is widely used in software and legal systems, as well as for the technological control of technological units and installations of various industries.  The invention The device for forming time intervals, containing the generator of this fundamental frequency, the output of which is connected to the counting input of a divider, a multiplexer, a trigger trigger, a single installation input of which is connected to the control bus of the device, and its zero output is connected to the information input of the first control equalizer , apana, the control input of which is connected to the forward output of the time interval counter, and the output - to the zero setup input of the trigger-repeater, a single installation input which o is connected to a single trigger trigger output 1710 and the information input of a second control valve, the control input of which is connected to the inverse output of the time interval counter, and the output to the higher bits of the control and information inputs of the multiplexer; the lower bits of the information inputs of which are connected to the outputs of the divider, and the output is connected to the counting input of the counter of time intervals, which differs. so that, in order to expand the functionality, the first, second and third multiplexers and programs {b 1st register, whose information outputs are connected to, are additionally introduced into it. the control inputs of the time interval counter, and its control output is connected to the lower bits of the control inputs of the main multiplexer and the control inputs of the first second and third additional multiplexers, the last output of which is the output of the device, the gate input is connected to the inverse output the repeater trigger and the strobe input of the program register, its first information input is connected to the direct one, and the second information input with the reverse outputs of the time counter and the intervals. and the gate input of the second auxiliary multiplexer, the output of which is connected to a zero set trigger trigger input, the synchronization input of which is connected with the output of the first auxiliary multiplexer, whose information input is combined with the information input of the second auxiliary multiplexer and connected to the device control width.   .  Sources of information taken into account in the examination of t.  USSR Author's Certificate 8 577509, cl.  G 04 F 10/04, 1977.   2. USSR author's certificate tio for vek 2621288, cl. H 03 K 5/00, 30.11.78.V t i. eleven OO I J i A. C 5 0 I kn G7 C O) isap S) toi 0 wywl 2J aa gfus.2