SU946002A1 - Measuring receiver - Google Patents

Description

(54) MEASURE FLAWN AND RECEIVER

one

The invention relates to an electronic technique and can be used to create devices for measuring the level of electromagnetic interference and the electromagnetic compatibility of radio- and electronic means.

A measuring receiver is known, which contains a capillator, an input device, a high frequency amplifier, one or two frequency converters, one two two Q intermediate frequency amplifier, an output y, a device and used for measuring the levels of electro magnetic interference and electro magnetic compatibility t15

A disadvantage of this device is that there are non-linear distortions and significant measurement errors,

The closest to the technical essence of the invention is to measure a 20-receiver receiver containing an input unit and a calibrator, the outputs of which through a switch are connected to the input of a circuit consisting of series-connected batteries.

a tenuator, input circuit, high frequency amplifier with a frequency converter, an intermediate frequency amplifier and an output unit, and a Q2J indicator,

A disadvantage of the known device is the low measurement accuracy.

The purpose of the invention is to improve the measurement accuracy.

Claims (2)

The goal is achieved by the fact that the measuring receiver containing the input unit and the calibrator has connected the switchboard to the input of the circuit, which consists of serially connected attenuates, the input circuit, at high frequency frequencies with the npeo iaao amplifier, intermediate amplifier. frequency and output bps, and the inverter, equipped with scanning filter, detectors, level detection, attenuator control unit, an emission number determinant, an emission level meter, a blocking voltage determinant, mutual voltage modulation voltage, voltage determinant pr 304 MOio interference transmission, two summers and one control loop, with one of the inputs of the switch. Connect the filter to the output of the input circuit, its other input to the first output of the control unit, and the output through the detector is connected to one of the inputs of a certain level, the other input of which is connected to the fifth output of the control box, one of its outputs through the attenuator control unit connected to the control input of the attenuator, and the other its output is connected1 to one of the inputs of the emission number determinant, the other input of which is connected to the second output of the control unit, and the output to the input of the emission level meter, whose outputs are connected with the first inputs, respectively, of the blocking voltage determinant, the voltage detector of the mutual module w and the voltage detector for direct passing of interference, the second inputs of which are connected respectively to the third, fourth and sixth outputs of the control unit, and their outputs to the corresponding inputs of one of the adders, the output of which is connected to one of the inputs of another adder, the other input of which is connected to the output of the output unit, and the output - to the input of the indicator. The drawing shows a structural electrical circuit of the device. The circuit contains a calibrator 1, an input unit 2, an attenuator 3, an input circuit 4, a high frequency amplifier (UHF) with a frequency converter (IF) 5, an intermediate frequency amplifier (UPC) 6, an output unit 7, an indicator 8, a scanning filter 9, a detector 10, a level identifier 11, an attenuator control unit 12, an emission number determiner 13, measure 14 emission levels, a blocking voltage determiner 15, a mutual modulation voltage determiner 16, a direct interference voltage determiner 17, a switch 18, a control block 19 and adders 20 and 2 1. The device operates as follows. Elements 1-7, which are the actual measuring receiver (PI) and the scanning figure 9, are tuned to the measurement frequency of the meter. This adjustment is carried out by a command from the control side 19. From the output of the input circuit 4, the interference voltage in the D band, where the frequency range, in which the transducer is susceptible to the effects of the external electromagnetic environment, 24 steps on the scanning figure 9, which has a transmission bandwidth of f-p. the noioca needle transmission path of the main electoral capacity of the power source. The disturbance in the population, p. To the frequency vfi,; v is detected by detector Yu and arrives at level 11, which determines the level of interference V., at frequency n,; v. Use VM UQ (where Wo is some given voltage level associated with sensitivity ratio E to detector output 1O, di-3 from attenuator control unit 12 is turned on to turn on the next attenuation level of attenuator 3. Switching attenuator 3 continues until , the condition Vv, -Vo is satisfied. The attenuation control of the attenuator 3 allows the level of interference at the measurement frequency to be reduced to the value at which the HF - IP path retains high linearity. When, the command for scanning in the Lt band is sent. There is interference from the bip 11 that determines the number of emissions, which determines the number of emissions K with amplitude Vx V, where V p is the smallest interference voltage resulting in the appearance of nonlinear effects in the HF path PI (for example, this voltage determined by the third order modulation ratio of one third order.) Further operation of the device is determined by the number of emissions K in the band; the following situations are possible: 11.1. TO. The measurements are carried out without correction. 11.2.K 2. In this case, it is necessary to take into account the blocking effect or the effect of the direct passage of interference due to the presence of side reception channels. The distinction between these effects is accomplished with the aid of the control block 19 — by temporal resolution of the ejection position. The blocking voltage is calculated accordingly in block 15 or direct passage voltage in block 17 in accordance with dependencies (i.e., which are easily determined experimentally for PI and are contained in block 19. 11.3 K 2, Possible mutual modulation effect. A corrective device evaluates the components of mutual modulation of only the third order, mk, as the probability of a component of mutual modulation more high order, the same as the third order interference, and the intensity is much lower. tension in The third order is modified in block 16 after the formation condition is met by block 19 by temporarily resolving the position of the outliers. If the third order modulation component of the third modulation is not met, the blocking voltage in the determinant 15 or direct passage voltage in the determinant 17. In the general case, the listed voltages are simultaneously recorded, followed by algebraic addition in the adder 21, from the output of which The error is fed to the adder 2O, in which the measurement result is corrected. The device provides a significant reduction in measurement error by taking into account the effects of an external electromagnetic installation. Claims of the invention: A measuring receiver comprising an input unit and a calibrator, the outputs of which through a switch are connected to a circuit input consisting of an attenuator connected in series, an input circuit, a high frequency amplifier with a converter, an intermediate frequency amplifier and an output unit, and an indicator that that, in order to increase the measurement accuracy, it is equipped with a scanning filter, a detector, a level gauge, an attenuator control unit, an emission level identifier 026, a sampling level meter , blocking voltage determiner, voltage modulation, modulation voltage, direct interference voltage determiner, two totalizers and a control unit, this one of the 3 inputs of the scanning filter is connected to the output of the input circuit, its other input is connected to the first output the control unit, and the output through the detector is connected to one of the inputs of the level detector, the other input of which is connected to the fifth output of the control unit, and the fault from its outputs through the attenuator control unit is connected to the control input attenuator the other output is connected to one of the inputs of the emission number determinant, the other input of which is connected to the second output — the control unit, and the output — to the input of the emission level meter, whose outputs are connected to the first inputs, respectively, of the blocking voltage determiners mutual modulation and the voltage determinant of the direct passage of interference, the second, the inputs of which are connected to the third, fourth and sixth outputs of the control unit, respectively, and their outputs to the corresponding inputs of one Of the adders, the output of which is connected to one of the soda of the other adder, the other input of kofoporo is connected to the output of the output 6fioKa, and the output to the input of the indicator. Sources of information, taken into account in the examination of 1 Measuring radio interference. Ed. I.A. Fastovsky, M .. Svy, 1973, p. 1O1-119 (analog). 2. Mikhailov A.S. Measurement of parameters of EMC of RES “M., Sv, 198O, p. 6467 (prototype). one g and one Gp LI