SU939989A2 - Device for frequency characteristic recording - Google Patents

Description

(B) DEVICE FOR RECORDING OF FREQUENCY CHARACTERISTICS

one

The invention relates to measuring instruments, in particular, to studying the frequency characteristics of objects, and can be used in any branch of engineering when testing for the effects of vibration and shock.

According to the main author. St. USSR ff tl 1 ZZZ is known a device for recording frequency characteristics, - containing, after, Q, is connected to the generator a frequency sweep control unit and an automatic regulator of the amplitude of excitation, power amplifier, exciter oscillation) 5 Research institutes, the first measuring transducer, connected via a feedback amplifier to the control input of the excitation amplitude controller, a second measuring transducer, connected by an output to the input of the measuring amplifier, amplitude detector, li ne to one input terminal of an xy recorder, to the other input of which is connected an output of first frequency-analog converter, the input to the input podklyucheyny amplitude detector fij.

In those cases when the frequency range under study is significantly narrower than the entire frequency sweep range of the master oscillator. and its exact position is not known, recording the range under study requires performing a series of operations associated with approximate setting the start and end of recording, or slowing down the frequency of the master oscillator or repeatedly passing the frequency over the entire sweep range to approximate the position of the resonant peaks. These operations increase the time of preparation for measurement and recording, reduce the productivity of the operator and the speed of the device as a whole.

Claims (1)

The purpose of the invention is to increase productivity. The goal is achieved by the fact that a device for recording frequency characteristics, comprising a series-connected excitation generator with a frequency sweep control unit and an automatic excitation amplitude controller, a power amplifier, a vibration exciter, a first measuring transducer connected via a feedback amplifier to a control input torus of the amplitude of excitation, the second measuring transducer connected by the output to the input of the measuring amplifier, amplitude detek The op connected to one input of a two-coordinate recorder, to another input of which the output of the first frequency-analog converter is connected, the input connected to the input of an amplitude detector, is equipped with a white noise generator, five electronic keys, two square pulse formers, two frequency converters - analogue, comparison element, zero-body, elements NOT and OR, an executive element and a matching amplifier, the output of the excitation amplitude controller is connected via the first key to the first input of the OR element, the output of which is connected to the input of the power amplifier, the output of the excitation generator is connected to one input of the comparison element via the second key connected in series, the first square pulse shaper and the second frequency converter analogue, the output of the measuring amplifier is connected to the other input of the reference element the connected third key, the second shaper square pulse and the third frequency converter analog, the output element of the comparison through A coaxial amplifier is connected to the inputs of the zero-organ and an actuator, the output of which is connected to the control input of the sweep generator frequency control unit, the output of the zero-organ is connected to the control inputs of the first and fourth keys and through the HE element to the control inputs of the second, the third and fifth keys, the signal input of the latter is connected to the output of the white noise generator, the output of the fifth key is to the second input of the OR element, and the fourth key is connected to the output of the measuring amplifier and the third input second key, and the output - to the inputs of an amplitude detector and a first analog-frequency converter. The drawing shows a block diagram of the device. A device for recording frequency characteristics comprises an excitation generator 1 with a frequency sweep control unit and a sweep range limit adjuster, an automatic excitation amplitude controller 2, a power amplifier 3, a 4-mode oscillator, a first feedback transmitter 5 and a feedback amplifier 6. On the exciter placed the test object 7 with a second measuring transducer 8 fixed on it, measuring amplifier 9, first converter 10 frequency-analogue, amplitude detector 11, two-coordinate recorder 12, white noise generator 13, five electronic keys respectively first, second, third, the fourth and fifth, the first and second formers of 19 and 20 rectangular pulses, the second and third converters 21 and 22 are analogue frequency, the comparison element 23, the matching amplifier 2k, the executive element 25, the zero body 26, element 27 and element OR 28. The output of the excitation generator 1 is connected to the input of the automatic regulator 2 of the excitation amplitude, the output of which is connected via the first switch 14 to the first input of the element 28 OR, the output of the latter through the power amplifier 3 is connected to the input of the exciter k with the first measuring transducer 5 installed / 1 on its movable part, the output of which is connected via a feedback amplifier 6 to the control input of the excitation amplitude controller 2 via the feedback amplifier 6. On the test object 7, a second measuring transducer 8 is fixed, the output of which is connected through the measuring amplifier 9 to the inputs of the third and fourth keys 16 and 17 of co-r responsibly. The output of the fourth switch 17 is connected to the input of the amplitude detector 11 to the input of the first frequency-analog converter 10, the outputs of which are connected to the inputs of the two-coordinate recorder 12. The output of the excitation generator 1 is connected via a serially connected second switch 15i first square driver 19 and second converter 21 a frequency-analog to one input of the comparison element 23, to the other input of which 20 rectangular pulses and a third converter 22 hours are additionally connected via a second generator totaanalog connected to the output of the third switch 16. Yield: comparing element 23 through a matching amplifier 2 is connected to the inputs of a zero-body 2b and complement tional element 25, whose output is connected to a second control input of blo Single frequency sweep inlet of the generator 1, the excitation. The zero-organ output 26 is connected to the control inputs of the first and fourth keys and 17, and the element 27 is NOT to the control inputs of the second, third and fifth keys 15, 16 and 19, respectively. The output of the generator 13 white noise is connected via the fifth key 18 to the second input of the element OR 28. The device operates as follows. The signal from the output of the white noise generator 13 through the open fifth key 18 and the element OR 28 passes the power amplifier 3 and acts on the exciter 4 oscillations and the test object 7 installed on its moving part. The signal at the output of the second measuring transducer 8 is narrowband due to the transformation of the wideband input the signal of the exciter in a narrowband, whose frequency spectrum is determined by the bandwidth of the resonant peak of the amplitude-frequency characteristic of the test object. shaper 20 square-wave pulses generate pulses of the same amplitude, the duration of which is determined by the moments of crossing of a zero-level narrow-band random process. The third frequency-analog converter 22 forms a voltage at the output, the magnitude of which determines the lower limit f of the frequency range of the resonant peak under study, it is supplied to the second input of the comparison element 23. At the first input of the comparison element 23 896, a signal is output from the output of the excitation generator 1 through the open second key 15, the first square pulse shaper 19 and the second frequency converter. The signal at the output of the comparison element 23 is determined by the difference between the current frequency of the master oscillator 1 and the frequency f | defining the lower limit of the frequency range under study. After amplification by matching amplifier 2k, this signal acts on the executive element 25, which adjusts the frequencies of the fj generator 1 to the frequency f. If the frequencies fp f are equal, the output of the zero organ 2b generates a signal that goes to the control inputs of the first and fourth keys 14 and 17 and opens them, while the keys 15, 16 and 18 are closed. Signal C; the output of the white noise generator 13 does not arrive at the input of the exciter 4 oscillations, and the signals from the output of the generator 1 and the output of the measuring amplifier 9 do not arrive at the first and second inputs of the comparison element 23, the signal from the output of the generator 1, whose frequency f, is fed to the input an automatic excitation amplitude controller 2, which maintains a constant level of excitation of the vibrator in the entire frequency range, starting at frequency f, due to the control signal through the feedback circuit. The signal from the output of the measuring amplifier 9 through the open fourth key 17 is fed to the input of the amplitude detector H, from the output of which to the input of the vertical sweep along the amplitude of the two-coordinate recorder 12. At the same time, the same signal is fed to the input of the converter 10 frequency-analogue from the output. which, in the form of a DC voltage proportional at each moment to the oscillation frequency at the measured point of the object, enters the sweep input at the frequency of the recorder 12. The recorder 12 adjusts along the frequency axis automatically, which reduces the time required to prepare the device for measurement and recording . The use of the proposed device allows, by automatically setting the beginning of the frequency range of the resonance characteristic 79, to improve the performance of change and recording. The invention of the device for recording the frequency characteristics of the author. St. No, characterized in that, in order to increase productivity, it is equipped with a white noise generator, five electronic keys, two square pulse formers, two analogue frequency converters, a comparison element, a zero-body, NOT elements and OR, an executive element and matching amplifier, the output of the excitation amplitude controller is connected via the first key to the first input of the element of the IPD, the output of which is connected to the input of the power amplifier, the output of the excitation generator is connected to one input of the element through the second key connected in series, the first square pulse shaper and the second analogue frequency converter, the output of the measuring amplifier is connected to another input of the comparison element via the third key sequentially connected, the second shaper square pulse and the third frequency converter analogue, the output of the comparison element through a matching the amplifier is connected to the inputs of the zero-organ and the actuating element, the output of which is connected to the control input of the control unit p A frequency generator exciter, a zero-body output is connected to the control inputs of the first and fourth keys and NOT through the control inputs of the second, third and fifth keys, the signal input of the latter is connected to the output of the white noise generator, the output of the fifth key is to the second input of the OR element, and the fourth key is connected to the output of the measuring amplifier and the input of the third key, and the output to the inputs of the amplitude detector and the first frequency-analog converter. Sources of information taken into account in the examination 1. USSR author's certificate ff tinSS cl. G 01 M 7/00, 197 (prototype).