SU866538A2 - Short-duration time interval measuring device - Google Patents

Description

(, 54) MEASURING SHORT INTERVALS OF TIME

Claims (1)

The invention relates to a measurement technique, and can be used when measuring time intervals of complex pulses. Known. Measuring short time intervals on the main author. St. No. 527693, used to measure the parameters of pulses with oscillations on the leading front, which contains two discriminators, the input of each of which is connected to the input of the meter, the output of the first discriminator - to one input of the first trigger, and the output of the second discriminator through the first element OR - to another input of the first trigger, the output of which is connected to the first input of the second element OR, a quartz oscillator, the output of which through the second is the OR element connected to the counting input of the first counter and through the third element OR even input of the second counter, the second input of the third OR gate connected to the output of the second flip-flop, one input of which is connected to the input of the Start meter, and the other input to reset 1yine which is connected to the second input of the first OR gate and the installation rhodu second counter. In addition to TorOj, the short time interval meter contains three triggers, two OR elements and an AND element, the second counter through the AND element connected to the third trigger, one output of which through the fourth ILR element is connected to the installation input of the first counter and to the counting input of the fourth trigger, and another output through the fifth element OR to the counting input of the fifth trigger, the output of which is connected to the third inputs of the second and third elements OR, the second input of the fifth element OR is connected to the first output of the first trigger, W The output of which is connected to the second input of the fourth element OR, the control inputs of the fourth trigger are connected to the Control inputs of the meter, and the Reset bus is connected to all the triggers 1. A disadvantage of the known device is the inability to detect the so-called breakdown phenomenon when the pulse amplitude decreases to zero with the subsequent increase, as well as the time zone during which the indicated breakdown phenomenon is observed. The purpose of the invention is to expand the functional capabilities of the meter. This goal is achieved by the fact that in a meter that contains five trigger elements OR, two discriminators, each of which is connected to the input bus of the meter, the first discriminator’s output is connected to one of the first trigger inputs, and the other output is through the OR element to another to the input of the first trigger, a quartz generator, the output of which through another element OR is connected to the counting input of the first counter, and through the third element OR to the counting input of the second counter, the second trigger, whose inputs are connected to the Start and Reset buses, nt AND, three triggers are additionally introduced, an AND element, two OR-NOT elements, and a zero-level discriminator, the meter input bus being connected via the zero-level discriminator to the first inputs of the first and second OR-NOT elements, the second inputs of which are connected to direct and inverse the outputs of the third trigger, respectively, the outputs of the first and second elements OR — NOT are connected to the first inputs of the first and second, respectively, additional triggers, the second inputs are connected to the Reset bus and the third input of the third complement The trigger trigger, the control inputs of which are connected to the control inputs of the meter, the outputs of the second additional trigger and the first discriminator are connected to the first and second inputs of the additional element AND, the output of which is connected to the counting input of the third additional trigger. FIG. 1 shows the block diagram of the proposed meter; 2, an input pulse whose parameters are measured at the level of Uf. The meter consists of discriminators 1 and 2, a quartz oscillator 3, counters 4 and 5, elements OR 6 triggers 11-15, element AND 16, tires Reset 17 ,. Input 18 and Start 19, control inputs 20 and 21, zero level discriminator 22, OR-NO 23, 24 elements, AND 25 element and triggers 26, 27 and 28. Inputs of discriminators 1, 2 and 22 are connected to input 18 of the meter , the output of the discriminator 1 is connected to one input of the trigger 12 and the input of the circuit AND 25, and the output of the discriminator 2 through the element OR 6 is connected to the other input of the trigger 12, one output of which through the element OR 8 connects CO to the input of the counter 5 and through the element IT 10 - with a counting input of three heres 14. The second output of the trigger 12 through the element OR 9 is connected to the installation input of the circuit sensor 5 and the counting input of the trigger 15. The output of the trigger 11 through the element LI 7 is connected to the input of the counter 4, the output of which is connected to the input of the rigger 14. The output of the trigger 14 is connected to the corresponding inputs of the eleents OR 7.8. The counter 4 through the element And 16 is connected to the input of the trigger 3. One output of the trigger 13 is connected. with the second input of the element OR 9 and the first gate of the element OR-NOT 23, and the other output of the trigger 13 is connected to the second input of the element OR 10 and the first input of the element OR-NOT 24. The discriminator 22 output of the zero level is connected to the second inputs of the elements OR-NOT 23 and 24, the outputs of which are connected to the inputs of the flip-flops 26 and 27, respectively. Tire Reset 17 is connected to the trigger inputs 11, 13, 14, 15, 26, 27, and 28 of counter 4 and to the second input of the element OR 6. Bus Start 19 is connected to the input of trigger 11. The control inputs of the trigger 15 and. 28 are connected to control inputs 20 and 21 of the meter. The output of the trigger 27 through the element And 25 is connected to the counting input of the trigger 28. The output of the quartz oscillator 3 through the elements OR 7, 8 is connected to the inputs of counters 4 and 5, respectively. The meter works as follows. When a single logical signal is applied to the bus Reset 17, the counter 4 and the trigger 11-15, 26, 27, 28 are reset, which leads to the initialization of the counter 5. The meter is ready for operation. When a signal arrives on the Start 19 bus (measurement start), the trigger 11 is transferred to one state and allows the pulses to pass from the crystal oscillator 3 through the OR 7 element to the counter 4 input. The time tj begins. When increasing (modulo) the input pulse arriving at input 18 to the value Ur (point 1 in Fig. 2), the discriminator 1 triggers by transferring trigger 12. As a result of triggering, trigger 12, previously applied through the OR 9 element, the reset signal of counter 5 is removed and simultaneously the pulses from the crystal oscillator 3 through the opened element OR 8 are fed to the input of the counter 5. The time t begins. When the input pulse decreases (modulo) (point 2 in Fig. 2) to the value V (bounce), discriminator 2 is triggered, and trigger 12 through the OR 6 element returns to its original state, prohibiting the arrival of pulses from the crystal oscillator 3 through the OR 8 element to the input of the counter 5. At the same time, through the element OR 9, the counter 5 is given a zero signal, which returns the counter 5 to the zero state. At the same time, this signal arrives at the counting input of trigger 15. As a result, trigger 15 triggers a bounce signal. Control of the presence of inputs 20, 21 of trigger 15 is given control signals so that trigger 15 is kept in this state independently of from the signals at the counting input. With a new increase in the modulus of the input pulse above the level Up (point 3 in Fig. 2), the discriminator 1 is triggered and, just as in the previous case, the counter 5 starts counting the time 1 c. When the modulus of the input pulse is below the level (point 4 in Fig. 2), the discriminator 2 is triggered, as a result of this, as in the previous case, the counter 5 is zeroed. Counter 4 continues to count the times ta and ne. If at the time (before the time elapses) the input pulse drops to zero, the discriminator 22 of the zero level is triggered, and since the trigger 1 is in the zero state, i.e. the time counted by the counter 4 has not yet passed and the element 16 also did not work, then the element OR — NOT 23. open and the element OR — NO 24 is closed; Therefore, the trigger signal of the zero-level discriminator 22 can only go to the S input of trigger 26 and it is not possible to change the state of trigger 27. As a result, trigger 26 triggers a signal that there is a breakdown in the zone. With a new increase in the input pulse to the value Uy, (point 6 in Fig. 2), the discriminator 1 is triggered, and the counter 5 starts counting time t, and this time count tu starts from zero. After time tcd, the element 16 triggers and the signal from its output overturns the trigger 13 into one state, as a result of which the element OR-NOT 23 closes the h, and the element OR-NOT 24 opens. If there is no sample in the bc zone; trigger 26 cannot overturn to the unit state upon breakdown in the twa / zone since the element OR-NOT 23 at time t, a is closed. When the modulus of the input pulse decreases to the value Uy, (point 7 and Fig. 2), the discriminator 2 is activated and returns the trigger 12 through the element OR 6 to the zero state. Since the trigger 13 is in the single state, the OR element 9 is closed and the zero signal can not pass to the counter 5, the signal from the zero output of the trigger 12 closes the OR element 8, in the ibTaTe of this time counting by the counter 5 stops in the counter 5 stores information proportional to time t. At the same time, the signal from the zero output of trigger 12 is added to the signal from the zero output of trigger 13 through the OR 10 element arrives at the input of trigger 14 and tilts the latter to one state. The signal from the single output of the trigger 14 closes the element OR 7, as a result, the counter 4 stops, stopping the countdown of the time tg. .When the input pulse decreases to zero (point 8 in Fig. 2), the discriminator 22 of the zero level operates, the signal from which through the element OR-NOT 24 overturns the trigger 27 into one state. If a new increase in the input pulse modulus does not occur, then the operation of the device ends there. In counter 4, information is stored from time tj, in counter 5 - from time tn. The trigger 26 stores information about the presence of a breakdown in the zone. Trigger 28 is in the zero state, indicating that no breakdown occurred in the zone. If starting from point 8 (Fig. 2), the INPUT pulse increases and reaches the value, the discriminator 1 is triggered, the signal from the output of which through the AND 25 element arrives at the counting input of the trigger 28 and overturns the latter, which signals the presence of a breakdown in the zone behind the CC. the trigger inputs 28 are connected to the control inputs 20 and 21 of the meter so that the trigger 28 is held in one state regardless of the pulses at its input. The operation of the device ends there. The application of the invention allows the expansion of functional devices by defining time zones, which are observed in the so-called phenomenon of breakdown, when the amplitude of the pulse decreases to zero with a subsequent increase. Determination of time zones allows to improve the quality of controlled products. The invention The meter short intervals of time on the author. St. No. 527693, which is different in that, in order to expand its functionality, three triggers, an AND element, two OR-NOT elements and a zero-level discriminator are added to it, the meter input bus is connected to the first inputs of the first through the zero-level discriminator. and the second element OR-NOT, the second inputs of which are connected to the direct and inverse outputs of the third trigger, respectively, the outputs of the first and second elements OR-NOT are connected to the first inputs of the first and second additional trigger, respectively The second inputs of which are connected to the bus Reset and the first input of the third additional trigger, the control of which inputs are connected to the control inputs of the meter, the outputs of the second additional trigger and the first discriminator are connected to the first and second inputs of the additional I element, the output of which is connected to the counting input of the third additional trigger. Sources of information taken into account in the examination 1. USSR author's certificate 527693, cl. G 04 F 10/04, 1975.