SU949735A1 - Frequency relay - Google Patents

Description

(54) FREQUENCY RELAY

The invention relates to electrical engineering and can be used in signaling and automatic control systems for generating signals at frequency deviations from a predetermined value.

A device is known that contains a D-flip-flop and an RS-flip-flop, the single output of which is connected to the control input of the D-flip-flop. reference frequency driver, three AND elements for three inputs and a three-digit reversible counter. The inverse outputs of the counter counter dimensions, the subtraction bus of which is connected to the reference frequency driver, and the folding bus to the input bus, are connected via an AND element to the R input. RS trigger, the direct output of the first relay and the inverse outputs of the second and third bits of the reversible counter are connected. Through the second element I to the S input of the RS flip-flop, the inverse output of the third and direct outputs of the second and first bits of the recursive counter through the element I connected to the counting input of the D-flip-flop l3. The closest technical solution to the proposed one is

the frequencies contained by the driver of direct pulses from sinusoidal input voltage, the waiting multivibrator, the regulator in the form of a trigger with separate inputs, an inverter, two differentiating circuits and two diode switches. The output of the driver is connected to the inputs of diode switches, one directly, and the other through an inverter, and the input of a waiting multivibrator, the output of which through differentiating circuits is also connected to the inputs of diode switches whose outputs are connected to separate trigger inputs 2j.

A disadvantage of the known devices is the presence of only one level of actuation of the relay, which reduces its functionality.

20

The purpose of the invention is to enhance the functionality of the frequency relay by achieving two levels of operation; The goal is achieved

Claims (2)

25 in that a frequency relay containing a RECTANGULAR shaper from a sinusoidal input voltage, the output of which is connected to the input of the first waiting multivibrator and the input of the first inverter, output RS flip-flop, has the second 19 output RS flip-flop of the second and third inverters, four element And and the second waiting multivibor, the input of which is connected to the output of the first element And, the inputs of which are connected to the output of the driver and to the output of the first waiting multivibrator. The output of the second animated vibrator is connected directly to the first input of the second element And through the second inverter - with the first inputs of the third and fourth element And, the output of the first inverter is connected to the second inputs of the second and third elements, the output of the first waiting multivibrator is connected to the third input of the third element And. directly and through the third inverter -, with the third input of the second element And, the second input of the fourth element And, the third input of which is connected to the output of the former, the output of the second element And it is connected to the I-inputs of the output triggers, the output of the third element I to the RS input of the first trigger, the output of the fourth element I to the S input of the second trigger. The drawing shows a functional diagram of the frequency relay. The frequency relay includes a shaper 1 of rectangular pulses whose output is connected to the inputs of the first inverter 2, the first standby multivibrator 3, to one of the inputs of the second element I 4, the second input of which is connected to the output of the first standby multivibrator 3. The output of the second element I 4 is connected to the input of the second standby multivibrator 5. The output of the inverter 2 is connected to the inputs of the second and third elements And 6 and 7. K. The other two inputs of the element And 7 whose output is connected to the S-input of the trigger 8, connected to the output of the first waiting cartoon vibrator 3 and the output of second inverter 9 whose input is connected to the second-output monostable, multivibrator 5, is also connected to toromu second input of second AND b. To the third input of the element I b, the output of which is connected to the R inputs of the flip-flops 8 and 10, is connected via the third inverter 11, the output of the active multivibrator 3, to the S-input of the trigger 10 is connected the output of the fourth element 12, whose inputs are connected to the output of the inverter is 1, the outputs of the inverters 9 and 11. The frequency relay works as follows. When the input sinusoidal voltage is applied to the input of the shaper, a rectangular impulse is formed at the output of it, which is half the period. This pulse triggers the first standby multivibrator 3, the pulse duration at the output of which is the reference. The pulses from the driver 1 and the standby multivibrator 3 generates a single signal at the output of the element 4. At the end of one of these pulses, a single signal at the output of element 4 disappears and the second waiting multivibrator 5 starts. The pulse duration at the output of the second multivibrator 5 determines the allowable deviation of the half-period of the monitored voltage from the reference value, and consequently, the acceptable deviation of frequencies of the monitored voltage wives If the frequency is within the specified limits, the difference in pulse durations at the output of the imaging unit 1 and of the waiting multivibrator 3 is less than the pulse duration at the output of the waiting multivibrator 5. In this case, the longer pulse from the first two will end during the last pulse. At the same time, at the output of the element 6, a signal is formed that sets the output triggers 8 and 10 to the zero state. At their single outputs, which are relay outputs, there are no signals. . If the frequency deviates from a given value of more than the downstream pulse duration on shaper 1, the pulse on multivibrator 3 will be longer than the pulse duration on multivibrator 5. In this case, the pulse on shaper 1 will end after the pulse on the multivibrator 5 has finished , and at the output of the element And 12 a pulse will be formed that sets the trigger 10 into one state. A signal appears at the output of trigger 10. When the frequency deviates to a larger direction by an amount greater than the allowable duration on the shaper 1 is shorter than the pulse duration of the output of the multivibrator 3, in this case, after the pulse ends, the output of the multivibrator 5 will generate a trigger at the output of the element 7 7 . Thus, when the voltage of the controlled voltage is within the permissible limits, there are no signals at the relay outputs, at a frequency less than permissible, a signal is formed at the unit output of the trigger 10, at a frequency greater than the permissible at the single output of the trigger and. The effectiveness of the invention as compared to a frequency relay is to extend the functionality by replacing the two frequency relays of the lower and upper levels. Claims of the Invention A frequency relay comprising a square-wave driver from a sinusoidal input voltage, the output of which is connected to the input of the first standby multivibrator and the input of the first inverter, output RS-flip-flop, characterized in that in order to expand functionality by achieving two levels of operation , the second output RS trigger, the second and third inverters, four And elements, and the second waiting multivibrator, whose input is connected to the output of the first And element, whose inputs are entered into it. connected to the output of the driver and to the output of the first waiting multivibrator, the output of the second waiting multivibrator is connected Chen directly to the first input of the second element I and through the second inverter to the first inputs of the third and fourth elements I, the output of the first inverter is connected to the second inputs of the second and third elements I, the output of the first standby multivibrator is connected to the third input of the third element I directly and through the third the inverter - with the third input of the second element And and the second input of the fourth element And, the third input of which is connected to the output of the driver, the output of the second element And is connected to the R-inputs-output triggers, output the third element And to the S-input of the first trigger, the output of the fourth element And - to the S-input of the second trigger. Sources of information taken into account during experimentation 1. Authors certificate of the USSR 62.9511, cl. G 01 R 23/00, 1976. 2. USSR author's certificate number 547866, cl. H 01 H 47/28, 1974.