SU655992A1 - Device for checking amplitude-frquency characteristics - Google Patents

Claims (2)

In addition, when monitoring attenuation in the delay band, the decrease in the signal level at the output of the object being monitored with a detuning from the nominal frequency by 3 octaves (8-f nominal) must be greater than 6O dB. On the other hand, the nominal output signal of modern devices is usually no more than 1: 3V (rms value) due to the increased requirements for good signal analysis of complex signals (the amplitude coefficient is 10 and therefore the maximum amplitude signal in the object is CALL Comparing such signals is related with difficulties, and with this, sufficient accuracy is not ensured. However, an increase in the nominal signal over 3Bi 1 is not advisable, since it is associated with the signal passing more than CALL with small nonlinear distortions. Enhancement of device functionality through the control unit, the first directly, and the second through the NOT element, while the first output of the control unit is connected to the control inputs by a control A generator, the output connected to one input terminal of the device, and the output of the reversible counter connected to the control inputs of the controlled attenuator, are entered into P channels, each of which consists of a series-connected filter and a former, an OR element, and a series-connected amplifier transfer coefficient, as well as the tolerance task block, all filters are combined and connected to the input of the controlled oscillator, and all the outputs of the drivers are connected to the inputs and OR, the output of which is connected to the input of the counter, whose outputs are connected to the inputs of the amplifier with a discrete-changeable coefficient and the inputs of the tolerance setting unit, the installation input of which and the installation input of the counter are connected to the second output of the control unit, the third output of which is connected to the control input of the reference unit tolerances, the outputs of which are connected to other inputs of the comparators, and the input of the amplifier with a discrete-variable transfer factor is connected to another input terminal of the device. The drawing shows the functional scheme of the device for controlling the frequency response. The device contains a controlled attenuator 1, a matching device 2, an amplitude detector 3, a comparator overestimate 4, an understatement comparator 5, a reversible counter 6, a control unit 7, an HE element 8, a controlled generator 9, a controlled object 10, filters 11, drivers 12, Element OR 13, counter 14, amplifier 15 with a discrete-variable transfer coefficient. Unit 16 to set tolerances. The level and frequency codes are removed from tires 17 and 18, respectively. The device works as follows. Suppose it is necessary to monitor the frequency response of an object with a built-in low-pass filter, whose attenuation in the passband is -O + O, 25dB, in the transition region - O ± 0.5 cut-off frequency 3 + 1 dB; at the double cut-off frequency is more than 20 dB, at the quadruple cut-off frequency is more than 40 dB, at the peak of the cut-off frequency is more than 60 dB, then the cut-off frequencies of the filters AND (for example, type of high-pass filter) are equal respectively to the frequencies of the bandwidth end, beginning of the transition region, frequency cutoff, doubled, quadruple, and octopus cutoff frequencies, the gains of the amplifier are 15-0, 20, and 4O dB, and the block 16 sets the upper and lower tolerances for the deviation of the amplitude-frequency response from the normal level: in the passband 0.25 dB, in the transition region mon ton tolerance from O, 25 to + O, 5 dB and from + 0.5 to + 2 dB, in the delay region of -0.25-0.5-0.5 -4 from + 2 to + 20, from O by +20 and from O to 40dB. +). The clock signal of the control unit 7 sets the initial state of the counters 6 and 14, in the task setting unit the tolerance is the minimum tolerance equal to + 0.25f and the controlled oscillator 9 to generate the minimum frequency. The control signals from counters 6 and 14 of the transmitting factors of amplifier 15 and control 56 t3Moro attenuator 1 are set equal to O. Then, if the frequency response attenuation in the passband of the monitored object 10 is normal, the signal at the output of the comparator 4 and the element HE 8 is absent, from block 7 of the control unit, pulses on the control and counting inputs of the reversible counter 6. (the meter mode can be any, i.e., it can be switched on for addition or subtraction) are not received. Signals on control inputs The low attenuator 1 is kept free, therefore the attenuation value. If attenuator 1 does not change if the attenuation of the object 1OF is less than normal, then after comparing and rectifying the signal with device 2 and detector 3, comparators 4 and 5 are triggered. At the output of comparator 4, it will indicate a decrease in the attenuation of the frequency response relative to the norm. And in control block 7, a command is generated to turn on the dresser-counter in add mode, pulses are sent to the counting input of the reversing counter 6. The contents of counter 6 increase and the attenuation of the controlled attenuator changes until the signal at the output of the comparator 4 disappears. At the output of the element HE there is no signal at all this time. If the attenuation of the frequency response and the object. 10 is higher than the norm, then none of the comparators 4 and 5 work. Therefore, the output of the element does NOT receive a signal fixing the increase in the attenuation of the frequency response relative to the norm. In this case, the signal from the control unit 7 controls the reversible counter 6 to enter, and pulses through its counting input counter 6 decreases, and the attenuation of the controlled attenuator changes until the frequency response becomes normal, i.e. on v1gs signal at the output of the comparator 5, and at the output of the element NO - 8 will disappear. Under normal attenuation, the frequency response of the object 10 (the signals at the outputs of the comparator 4 and the element are not absent) from the output of the control unit 7 is fed to the generator 9 a control signal, providing a tuning at the frequency of the 9 V generator. If the AFC attenuation deviates from the norm, the commands of the control unit 7 read the generator 9 frequency from output 92 (bus) 18 of the frequency code (or measure the frequency with a digital frequency meter) and reverse level meter code 6 from the output (bus) 17. When the control frequency coincides generator 9 with a cutoff frequency of the filter 11, the voltage from the output of the latter is converted into a single pulse by the shaper 12. and through the OR element is fed to the counting input of the counter 14. Changing the code on the side of the counter 14 will lead to a change in the tolerance and at the output of block 16. And the transmission coefficient of amplifier 15 remains the same (due to the appropriate connection of the control inputs of amplifier 15). A further change in the frequency at the output of the generator 9 to the cut-off frequencies of the filters llj - 11 g will change the code at the output of the counter 14 and, accordingly, change the tolerances. The transfer coefficient of the amplifier 15 is changed by 20 and 40 dB when the frequency of the generator 9 coincides with the cutoff frequency of the filter Well and 11, which ensures high accuracy of compaction with a high attenuation of the frequency response 10 (when monitored at frequencies higher than 4). If the attenuation of the frequency response of the object 10 on one of the sections of the delay band or the transition region leaves the floor tolerances, triggering the comparators 4 and 5 (or both do not work) will cause the signal from the control unit 7 to switch the counter 6 to the layer mode (subtract ), and on the counting input it arrives m HMnynbCHj changing attenuation attenuator 1). Simultaneously, the generator control signals 9 and the block 16, in which the tolerance level is remembered at the time of the comparators 4 or 5 triggered, are turned off. Claims An apparatus for monitoring amplitude-frequency characteristics comprising a controllable attenuator connected to a serially connected matching unit, detector and comparator scaling and underreporting connected to the control and counting inputs of the reversible counter via the .ffepq iMHe / toofpectl control unit counters iffHl / iofofplctl iffflctl iFectfltl if ipfltfltq iMHe / toofpepl tlplm ireflower counter by means of the control unit. / STBeHHo, a second, EI, this is the first output of the control unit connected to the utflivayuschy input of the controlled generator, the output connected to one input terminal of the device, and the output of the reversible counter It is connected to the control inputs of the controlled attenuator, stating that, in order to {expand the functionality, fi channels are introduced into it, each of which consists of a series-connected filter and a former, an OR element, a series-connected counter and an amplifier with discrete -changeable transfer ratio, as well as a block for setting tolerances, all the filter inputs are unified and connected to the input of the controlled generator, and all the outputs of the drivers are connected to the inputs 6 92 of the OR element, the output to Secondly, it is connected to the counter input, the outputs of which are connected to the amplifier inputs with discrete transfer ratio and the tolerance tolerance block inputs, the installation input of which and the meter installation input are connected to the second output of the control unit, the third output of which is connected to the t control input of the tolerance tolerance unit, the outputs of which are connected to other inputs of the comparators, and the input of the amplifier with a discrete-variable transmission coefficient is connected to another input terminal of the device. Sources of information taken into account in the examination 1. USSR author's certificate number 313301, clGn 04 В 3 / 03,1970 2. USSR author's certificate No. 464977Гкл.Н 04 В 3 / 04.1975. 4.j, |.