SU1187152A1 - Method of determining resonance frequency of mobile system of reed relay - Google Patents

Abstract

THE METHOD FOR DETERMINING THE RESONANCE FREQUENCY OF THE MOBILE SYSTEM OF THE LANGUAGE RELAY, according to which, at each of the sequentially set frequencies, includes the level of the control signal and controls the response of the moving system, the relay, characterized in that at which the beginning of the periodic closures of the contact parts is recorded, then the control signal is turned off, then it is turned on again at the same level, measured between time from the moment of switching on the signal to the first contact of the contact details and the largest measured value (the resonance frequency C of the moving contact of the relay is determined by LN).

Description

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t JL - The invention relates to an indirect method for electrical measurements of operating parameters of a reed switch. The purpose of the invention is to improve the accuracy and sensitivity of the measurement of the resonance frequency of the moving system of the locking relay, which is achieved by determining the time-frequency characteristics of the oscillating system. The drawing shows a diagram of the device for the implementation of the proposed method. A relay was tested with a resonant frequency of 51 Hz and a working gap of contact parts of 0.8 mm. The circuit for measuring the triggering and releasing parameters of the reed relay contains excitation unit 1 (generator) milliammeter 2j coil 3 and contact reed relay, display unit 5 (millisecond-time meter of type F-738). Switch 6 is provided by the construction of block 5, the device for the proposed method is optional. According to the method DL of each frequency setpoint, when the switch 6 and block 5 are turned on, the amplitude of the control signal of generator 1 is nicely increased until unit 5 registers the beginning of the periodic closure of the relay contacts, stopping the continuous timing. remove the fully control signal by disconnecting the switch 6 for a time sufficient to damp the natural oscillations of the moving relay system. After this, switching on the switch 6 simultaneously sends a signal with a jump at the same level and starts timing the block 5, which stops at the moment of the first closing of the contact details of the relay after the signal is given. For the highest measured response time of 1500 ms (see table), determine the resonant frequency of the moving relay contact as 51 Hz. Due to the sharp increase in time at the resonance frequency, the moment (phase) of the re-injection of the signal does not have a significant effect on the results of the comparison with the neighboring measured time intervals. So, for the considered sample, the maximum error from the asynchronous feed is equal to T / 2 10 ms, it is only 1% of the difference of 1500-500 1000 ms of the response time at the resonant and adjacent frequency. In the proposed method, the procedure of step-by-step selection of the magnitude of the dynamic response current (jump) by the method of successive approximations and the error of discreteness associated with it are eliminated, which increases the accuracy of the method. Since only one parameter is measured — the relay open time, the method drastically reduces the number of measurement operations (to one), calculating (absent), removing, and giving a push signal (to one) for each test frequency. To compare the sensitivity of the methods, the table shows for the same frequencies the values of the dynamic return coefficient calculated by a known method. The sensitivity of the known method is for the range 50-50.5 Hz / Si AKb / uf (1.54-1.24): 0.5 0.6, for the interval 50.5-51 Hz S 0.48 s, and the relative sensitivity of Sg, n S is 0.8, i.e., when approaching the resonant frequency, the sensitivity by a known method deteriorates. In the proposed method, f (350-190): 0.5 to 320, S 2300 Sj: Sj 7.18, i.e. when approaching the resonant frequency, the sensitivity is multiplied. For the tested instance, the relay gains sensitivity in determining the resonance frequency in this way, 7.18: 0, 97 times, | which further increases the accuracy of the determination. Response time, ms Surge current, mA Return current, mA Dynamic return coefficient, 2.04 1.54 kV 57 350 1500 500 27 17.8 33.5 17.9 1.24 1.00 0.69

Claims (1)

METHOD FOR DETERMINING THE RESONANCE FREQUENCY OF THE MOBILE SYSTEM OF THE LANGUAGE RELAY, according to which the control signal level is switched on for each of the sequentially set frequencies and the response of the mobile relay system is controlled, characterized in that, in order to increase the accuracy and sensitivity, the control signal level is preliminarily increased to a value at which the beginning of the periodic closures of the contact detap is fixed, then the control signal is turned off, then it is turned on again with the same level, the gap is measured the belt from the moment the signal _ is turned on to the first contact-component closure <g and the resonant frequency of the moving contact of the relay is determined from the highest measured value.