SU608260A1 - Transient process time meter - Google Patents

Claims (2)

(54) THE TRANSMITTER PROCESS TIMER at the time of several consecutive inclusions of the system under study, the time of starting the measuring device of time intervals, it is possible to trace the nature of the transient frequency setting process. FIG. 1 shows a block diagram of a transient time meter; in fig. 2 principle of transient measurement. The transient process time meter contains a key 1, a counter 2, an induction device 3, a shaper of measuring intervals 4 and an adjustable delay device 5. The device operates as follows. Simultaneously with the inclusion of the test system, an Start command is sent to the input of the adjustable delay device 5 and, at its output, a signal with a certain delay rz (see Fig. 2) is sent out, which starts the shaper of the time intervals 4. The latter forms calibrated time intervals, duration which is determined by the expected duration of the transient under investigation, for which the key I is opened, and the frequency f under investigation through the public key 1 is fed to the input of counter 2. After the measuring interval ends webbings switch 1 is closed and stops the access to the input frequency of the investigated 2. The last counter for measuring the time interval under study takes a count of the number of frequency periods and, since the number of periods of the investigated frequency f and duration dimensional time interval t is uniquely determined by the oscillation frequency. where K is the proportionality coefficient, then in the display device 3 it is possible to obtain the value of the measured frequency. For this, the other output of the imaging unit 4 is connected to the control input of the display device 3 and when the length of the measuring time interval changes, the ratio is proportional to the network K. In the simplest case, the measured time intervals can be selected calibrated and multiples of 1 s, i.e. 100 ms, 1 ms , 10 ms, I s, 10 s, etc., and then in order to obtain a frequency reference, it is sufficient in the display device 3 to shift the comma from discharge to discharge. . Using the adjustable delay device 5 to change the delay from the beginning of the process being searched to the moment the measuring time interval is formed, the measuring time interval can be moved along the measured process. During each of these measuring intervals (in Fig. 2, they are indicated by numbers I-VI), the instantaneous frequency corresponding to the average frequency of the process being investigated is determined. during the measured time interval (frequencies U, f ,, 1 ”in Fig. 2). To reduce the error in determining the instantaneous frequency, the length of the measuring interval must be chosen such that during the measuring interval the frequency under investigation changes either according to a law close to linear or remains almost constant. Changing manually or automatically the beginning of the measured time interval, it is possible to obtain the law of frequency variation during the transient process in several successive switching cycles of the system under study. Before the beginning of each next measurement cycle, it is necessary to set the counter 2 to its initial state. To do this, one of its inputs needs to issue the command “Reset. The frequency measurement process ends when a series of consecutive measurements of the same frequency, for example fv-fw, is obtained, then the shortest delay time, after which the same increase in the average frequency of er., Is obtained during the measuring interval, will be equal to transient frequency setting. The transient time is counted according to the indications of the adjustable delay device 5. Claims The transient time meter comprising a key, a counter and an indicating device connected in series, characterized in that, in order to obtain the dependence of the frequency variation in time, an adjustable delay device is inserted into it and shaper of measured time intervals, the first and second outputs of which are connected respectively to the control inputs of the key and the display device, and the input of the connection n yield variable delay circuit. Sources of information received during the examination: 1. Author's certificate f9 5320V8, cl. G 04 F 10/04, 1972. 2. The copyright certificate number 505127, cl. H 03 K 13/20, 1973.