SU951695A1 - Transitional process time characteristic meter - Google Patents

Description

(5) METER OF TIME CHARACTERISTICS OF TRANSITION PROCESSES

one

The invention relates to a measurement technique and is intended for the automated measurement of the temporal characteristics of fast transients.

A transient time characteristic meter is known that contains a measuring unit, a pulse generator, keys, counters, three | - heres, and a multi-input element coincide j. Nor l.

This meter has a low measurement accuracy of the transient establishment time due to the delay of signals when passing through circuit elements involved in measuring the establishment time and does not provide information on the decay time and transient establishment time when the source is turned off. The measurement time of this meter is determined by the sum of the establishment time and the rise time of the transient process, which reduces

speed and limits the area

application meter.

; Closest to this invention is a device comprising a measuring unit, keys, a pulse generator, a pulse distributor, counters, static registers, an adder, a trigger, and logic elements OR 2.

Such a device is distinguished by design complexity, low speed and insufficient reliability, especially when the input signal is accidentally output from the Norma zone after

establishing a transient process and does not provide information on the rise time and decay time of the transient response.

The purpose of the invention is to increase the speed and expand the functional capabilities of the device.

Claims (2)

This goal is achieved by the fact that, in the transient response time meter, containing four keys, the measuring block of the first and second outputs of which are connected to the first inputs of the first and second keys, respectively, the second inputs of which are connected to the first and second outputs of the pulse generator, respectively counter, trigger, two elements OR, static register and adder, two additional keys, two counters and two triggers are introduced, while the outputs of the first and second main keys are connected to the account The inputs of the first and second main counters, respectively, the output of the first primary key are connected to the first input of the first additional key, and the output of the second primary key to the first input of the first OR element, the output of the second primary counter is connected to the information in the static register, and the outputs of the first the main counter and the static register are connected to the corresponding inputs of the adder; the first input of the third key is connected to the third output of the measuring unit; its output is through the first additional key The power counter and the main trigger are connected to the second inputs of the first, second and third primary keys, the first output of the measuring unit is connected via the second OR element to the reset input of the first additional counter, and through the fourth and second additional keys connected in series to the second input an additional counter, to the second output of the measuring unit are connected the counting input of the third counter and the first input of the first additional trigger, the first output of which is connected to the second The fourth key input and the SECOND output are connected to the rum input of the first auxiliary key, the output of which is connected to the first input of the second additional trigger, the second input of which is connected to the output of the first OR element, and the first output of the second additional trigger is connected to the recording input and the second with the input of prohibition of recording a static register, the third output of the pulse generator is connected to the second input of the second additional key, and the second inputs of the OR elements are connected to the reset inputs of all counters and static VT 5 whom register, as well as to the second inputs of the main and first additional triggers. The drawing shows a diagram of the meter. The meter contains measuring unit 1, keys 2-7, generator 8 pulses, pulse counters, triggers 1t, 15 and 16, the elements OR 17 and 18, the static register 19 and the adder 20. The meter works as follows. Before the start of each measurement, the meter is reset. In this case, in the counters 2-7 and the static register 19, a zero code is set, and the triggers are switched to such a state that a high potential is established at the first outputs of the flip-flops 1 and 15, and at the second output of the flip-flop k and per-; The first output of the trigger 16 is low potential. The input of the measuring unit 1 is given a signal of the transient under study, at its first and second outputs at any time moment there are mutually opposite voltage levels corresponding to the appearance of the input voltage level, respectively Out of zone and In zone the lower and upper values of the input voltage level, fixed by the first output out of the zone and the second output in the zone of block 1, depend on the nature of the transient process. The lower and upper limits when the source is turned on Are not at least 0, lU ' f-T at a fixed value of voltage level, and at most 1, for a zone at least 0.90.,. and no more than 1, 1. The upper and lower limits when the source is turned off Outside the zone - no more than 0.9U (- rH not less than minus 0.5 Uxjj., In the zone - no more and not less than minus 0.1 UNIT 1 controls the level by setting the input voltage value , the zone width, the limits of fixing the input voltage values outside the zone and in the zone, provides a change in the levels outside the zone and the white zone when the nature of the transient changes when the source is turned on or off and the pulses are output at the third output when the input voltage level coincides with on and with zero level When the input voltage is located outside the zone, the high (enabling) potential from the first output of the unit 1 is fed to the input of the key 2, while the generator 8 pulses pass to the input of the counter 10, which accumulates information in the number of pulses that falls into DI at those time intervals when the input voltage level is within the Outside the zone, to the first input of the key 6, at the second input of which. there is a low (inhibitory) potential from the second output of the trigger Ik, and the pulses are not received at the first input of the trigger 16; via the first input of the key k, on the second input of which there is a HIGH (permitting potential from the first output of the trigger. As a result, the first input of the key 5 also has a high potential, and the pulses from the third output of the generator 8 pass to the input of the counter 9 which starts to fill After the termination of the first time interval Out of the zone corresponding to the rise time (fall time) from 0, lUvcT to 0.9. Dei .... 0.1 (.j), the first output of block 1 is set to a low i inhibitory 7 potential. 8 stop fasting to fall into the counter 9, at the second output of the block 1, the set-55 draws a high (permitting) potential, which triggers the trigger NOT the opposite state. At the second input of the key k, a low (inhibiting) potential appears from the first output of the flip-flop l4, and at the second input of the key 6 - a high (enabling) potential from the second output of the trigger Itra. The keys + and 5 are locked and the generator 8 pulses do not pass through until the VOGO measurement cycle. Thus, counter 9 records the code corresponding to the rise time (fall time) of the transient process. The high potential from the second output of block 1 goes to the second input of key 3, the generator 8 pulses start to flow into counter 11, fill it, and the second input of the OR 18 element, and from its output yes to the second input of trigger 16, which previously was set by reset pulse. Therefore, 95 56 does not record the code from counter 11 into register 19. After the first time interval ends, the second time interval begins in the zone outside the zone, the pulses from the output of switch 2 pass through key 6 and the first pulse of the series outside the zone overturns the trigger 16 to the opposite state, the recording input is high, and the input of the register recording prohibition is low potential, the code from counter 11 is recorded in register 19. After the end of the next time interval Out of the zone and the start of the time interval In the Aon, the pulses from the output of the key 3 pass through of the OR gate 18, and the first pulse in series zone returns the trigger 16 'original state, and the inputs of the write register 19 receives write prohibition potential prohibiting entry, and the counter 11 sums the pulses in the second series with the first zone. . Thus, code rewriting from counter 11 to register 19 occurs only when the input signal level appears within the limits of Out of Zone, except for the first interval of time Out of Zone. The codes from the output of counter 10 and register 19 are continuously summed in adder 20. In counter 12, the number of transitions through the monitored level is recorded. At the first coincidence of the input signal level with the level (zero level, voltage level) corresponding to the first time interval In the zone, from the third output of block 1 a pulse arrives at the first input of the key 7 to the second input of which a high potential is output from the trigger output 15 and passes to the counter 13. The counter 13 pulses is two-digit. At its output, code 01 is set. With the appearance of the second time interval Outside the zone, the reset input of the counter 13 through, the logical element OR 17 receives a high potential, and the counter 13 is reset. At the output of the counter 13, a zero code is set again. If the next interval outside the zone does not follow the interval in the zone, then the second coincidence pulse arrives at counter 13 and sets K9d 10 in it. The high level from the output of the second time 79 row of the sweeper 13 tilts the trigger 15 to the opposite state its output establishes a low potential, which takes the keys 2, 3 and stops the flow of 11 pulses of counting masto to the counter, and also prohibits the flow of pulses to the counter 10 and the trigger 1b, thereby preventing the counter code 1 from being overwritten in the register 13 and writing the code to the counter 10When the occurrence of the random signal x Out zone. In the proposed meter, in contrast to the prototype, the measurement time does not exceed the time for establishing the transient process, which increases the meter performance and minimizes the unproductive time spent. The meter is protected from accidental occurrence of the signal Outside after the transition process is established, which increases the reliability of the meter; h. The meter allows you to simultaneously record information about the rise time (fall time), the time of the establishment and the number of transitions through the level of the established value of the voltage, i.e. it possesses wider functionality. The invention The transient time meter, containing four keys, a measuring unit, the first and second outputs of which are connected to the first inputs of the first and second keys, respectively, the second inputs of which are connected to the first and second outputs of the pulse generator three counters, trigger, two elements OR, static register, adder, characterized in that, in order to increase speed and enhance functionality, it additionally includes two keys, two counters, two triggers a, while the outputs of the first and second primary keys are connected to the counting inputs of the first and second primary counters, respectively, the output of the first primary key is connected to the first input of the first additional key, the output of the second primary key is connected to the first input of the first element OR, the output of the second primary account The sensor is connected to the information input of the static register, and the outputs of the first main counter and CTaTHitecKoro register are connected to the corresponding inputs of the adder, to the third output of the measuring unit under The first input of the third key is switched on, the output of which is connected via the first additional counter connected in series and the main trigger to the second inputs of the first, second and third primary keys; the first output of the measuring unit is connected via the second OR element to the reset input of the first additional counter, and connected in series the fourth main key and the second additional key are connected to the counting input of the second additional counter, the second output of the measuring unit is connected to th input of the third main counter and the first input of the first additional trigger, the first output of which is connected to the second input of the fourth primary key, and the second output is connected to the second input of the first additional switch, the output of which is connected to the first input of the second additional trigger, the second input of which is connected to the output the first element OR, the first output of the second additional trigger is connected to the recording input, and the second to the input of the prohibition of recording a static register, the third output of the pulse generator It is connected to the second input of the second additional key, the second inputs of the OR elements are connected to the reset inputs of all counters and the static register, as well as to the second inputs of the main and first additional triggers. Sources of information taken into account during the examination 1. USSR author's certificate No. 708307, cl. H 03 K 13/17, 1930. 2. Autorekoy certificate of the USSR № 733100, cl. H 03 K 13/17, 1980.