SU991362A2 - Time interval meter - Google Patents

Description

The invention relates to instrumentation and measurement technology and can be used for conversion. vani time intervals in digital code.

According to the main author. St. No. 760023 is known a time interval meter comprising a closed circulation loop consisting of two triggers connected in parallel and two coincidence circuits, two OR elements in series, and two delay elements, two counters tl1.

The disadvantages of the known device are unreliable operation and loss of information in the event that the stop pulse time coincides with one of the Start pulses, as well as the inability to measure bullet time intervals, which significantly limits the scope of the meter.

The purpose of the invention is to increase the reliability of work and the expansion of functionality.

The goal is achieved by the fact that a time interval meter containing two counters, a coincidence unit, two triggers, three coincidence elements and two delay elements, the output of the first of which is connected to the first input of the second coincidence element, and the output of the second delay element the input of the first match element, the second input of which is connected to the forward output of the first trigger, and the output of the first match element is connected to the first input of the first OR element,

10 the output of the first counter through the second element OR is connected to the input of the second counter, the third trigger and the third element OR, the first input of which is connected to the start-pulse bus and

15 by the first input of the first trigger, the second input of which is connected to the stop pulse bus and the second input of the additional OR element, the output of which is connected through the first and second delay elements connected in series to the first input of the third coincidence element, the second input of which is connected to the inverse output of the first trigger and the second input of the second coincidence element, the output of which is connected to the input of the second trigger, the output of which is connected to the second input of the first OR element, the input of the first counter and the first

Claims (1)

30 to the input of the coincidence unit, the second input of which is connected to the third input of the first element OR and the output of the third trigger, whose input is connected to the output of the third element coincident, and the output of the coincidence unit is connected to the third input of the third element. OR, the fourth input is connected to the output of the first OR element, the first input of which is connected to the second input of the second IL element; additionally introduced are the serially connected OR element and a trigger, as well as two coincidence elements, the outputs of which are connected to the additional inputs the first inputs are combined and connected to the stop pulse bus, the second input of the first additional match element is connected to the start-pulse bus, the second input of the second additional match element is connected to the output of the first OR element, and the output of the additional trigger is connected to one of the inputs second element OR. FIG. 1 is a block diagram of the device; | In FIG. 2 - time diagrams for his work. The belt interval meter contains elemefs OR 1-3, elements 4-6 matches, triggers 7-9, elements 10, 11 delays, counters 12.13, block 14 matches, additional elements 15, 16 matches, additional element OR 17, trig ger 18. The meter works as follows. .-. With the arrival of the Start pulse converter (Fig. 2a), which determines the beginning of the converted time interval, the trigger 7 is set to such a state (Fig. 2b) that the coincidence element 4 is open and the coincidence elements 5 and b are closed eg. from the inverse trigger output 7. A short pulse Start enters the first input of the element OR 1 and, after passing through successively included elements 10 and 11 of the delay and the open element 4 of the match, nocTyna at the first input of the element OR 2, through the element OR 3 on 13. counter input ode OR 2 pulse arrives at the second input of OR gate 1. The process circulation Start pulse (FIG. 2c) in the contour of elements 1, 10, 11, 4, 2 is similar to the first handling cycle. The process of circulation through this circuit will occur until the moment when the Stop pulse at the second input of the device appears, corresponding to the end of the converted time interval (Fig. 2a). In this way. at the moment of arrival of the stop pulse, the code 13 in the counter will be recorded where TO is the delay time generated by elements 10 and 11 of the delay LX is the measure e the first time interval. To clarify the result of formation, it is necessary to add to the code N a code proportional to the time interval V between each other, the pulse and the nearest circulating pulse Start. The impulse stop trigger 7 returns to the initial state at which the element is closed. 4 matches and elements 5 and 6 match open, the outputs of which are connected to the counting inputs of the flip-flops 8 and 9, respectively. As triggers 8 and 9, triggers with through-transfer are used, in the initial state trigger 9 is set to one, and trigger 8 is set to zero. Impulse Stop also enters through the element OR 1 on Two series-connected elements 10 and 11 of the delay. From the output of the element 10 of the delay, the pulse of the Start completes the (H + 1) -th cycle of circulation, enters through the open element 5 coinciding, neither to the input of the trigger 8, setting 1 I to its single state. The same (L + 1) th Start pulse, passed through delay element 11 with delay time dT and through the open element b coincidence, arrives at the counting input of trigger 9. Since trigger 9 is in the 1 state, (N + l ) -ft pulse Start goes to the input ele. ment OR 2 and with its falling edge sets trigger 9 to zero. condition. Thus, after passing. The (N + 1) -ro pulse Start trigger 8 is set to E1L is set to one, and trigger 9 is set to zero. Pulse Stop, making the first cycle of treatment, with: the output of the delay element 10 through the open element 5 coincident and being in the unit state trigger 8 enters the input of the element OR 2 and with the falling edge sets the trigger 8 to the zero state. The same impulse Stop, passing through the delay element 11, the open element of the 6th fall, arrives at the input of the trigger 9 and sets it to the unit state. Thus, after the first joint reference cycle (N - (- l) -ro pulse Start and first pulse Stop triggers 8 and 9 are reset. At the output of the OR 2 element, two pulses are generated, delayed from each other by the value of t - DT. Then the process of circulation of two pulses will occur in the same way as the described first cycle of circulation, and the number of cycles of circulation is fixed by the counter 12. Pulse Start will circulate with a period TO along the contour of elements 1, 10, 11, 6, 9, 2, and pulse Stop will circulate with a period TD-LT along the contour of the elements 1, 10, 5, 8, 2 (Fig. 2d). In each cycle of treatment, the delay of the stop pulse relative to the start pulse will decrease by the value of AT. At the time of the start and stop pulses, a prohibiting voltage level is formed at the output of the matching block 14 (Fig. 2e), which There is a breakdown of the circulation process. The end result of the transformer NP is written as 1. where N. is the meter reading 12. In order to preserve the uniformity of the scale of reference, the capacity of the counter 12 should correspond to equality -3 In case 1 Td, the counter 12 overflows and the overflow pulse with the price element or 3 goes to the counter 13 input. If the zero-interval interval meter arrives at the inputs (i.e., Start and H0 pulses coincide in time) from the output of matching element 15, the coincidence pulse through the OR 17 element enters trigger 18 and sets it to the one state. In this case, from the output of trigger 18, an element OR OR 1 receives a voltage level that ensures the absence of a recirculation process. Thus, as a result of measuring the interval of zero duration, not a single pulse will arrive in the counters 12 and 13, i.e. their readings will correspond to zero. When a pulse stop coincides with one of the pulses. The start of the sequence at the output of element 16 of coincidence will form a pulse of coincidence which, having passed through the element OR 17, enters the input of trigger 18 and sets it to a state that ensures the breakdown of the circulation process. The introduction of additional elements into the time interval meter improves the reliability of the meter and extends its functionality. Such characteristics greatly expand the range of possible applications of the meter. The invention The meter time intervals for auth. St. 760023, characterized in that, in order to increase the reliability of operation and expand the functionality of the meter, sequentially connected elements are additionally introduced into it. OR and trigger, as well as two matching elements, the outputs of which are connected to the inputs of an additional element OR, and the first inputs are combined and connected to the stop pulse bus, the second input of the first additional match element is connected to the start-pulse bus, the second input of the second additional match element connected to the output of the first element OR, and the output of the additional trigger is connected to one of the inputs of the second element OR. Sources of information taken into account in the examination 1. USSR author's certificate 760023, cl. G 04 F 10/04, and Start Stop