SU824458A1 - Device for measuring dynamic range to mutual modulation - Google Patents

Description

The invention relates to techniques for electrical measurements and can be used for measuring equipment of radio receivers.

A device for measuring dynamic range by mutual modulation ^{5 * * * * *} containing the first and second interference generators, the outputs of which are connected respectively with the first and second inputs of the adder, a calibration signal generator, a switch, the output of which ¹⁰

Connected to the input of the test object, and the level meter | Yj.

However, the known device requires manual calibration of the gain of the measuring circuit and the establishment of the same signal levels of the noise generators, and, therefore, a longer measurement time.

The purpose of the invention is the reduction of measurement time. ₍ 20

This object is achieved in that the device ⁷ for measuring the dynamic range of. mutual modulation, containing the first and second generators connected to the second input of the second level control and the second input of the comparator, the first input of which is combined with the second input of the first level control and the input of the level meter.

The drawing shows a structural electrical diagram of the device.

The device contains a first interference generator 1, a second interference generator 2, a calibrated signal generator 3, an adder 4, a first level 5 controller, a second level controller 6., a switch 7, a test object 8, an additional switch 9, a combination signal detector 10, a calibrated detector 11 signal, chronizer 12, level meter 13, comparator 14, first additional level meter 15 and second additional level meter 16.

The device operates as follows.

The input of the test object 8 is alternately connected using the switch 7 through the first and second level 5 and 6 regulators, the output of the adder 4.-.-, the first and second interference generators 1 and 2, and the output of the calibration signal generator 3. When the first and second interference generators 1 and 2 are connected to the input of the test object 8, the combination signal detector 10, which generates a control signal for the first controller 5, is connected to the output of the test object 8 using an additional switch 9. When a generator 3 is connected to the input of the test object 8 calibrated signal, then to its output using an additional switch 9 is connected to the detector 11. calibrated signal that generates a control signal for the second controller 6.

Thus, in the proposed device operates (with time division) two independent automatic adjustments. One of them supports the value of the Raman noise at a given nominal level, and the other supports the magnitude of the calibrated signal. The first control ring includes a first controller 5, switch 7, test object 8, additional switch 9, and a combination signal detector 1O. The second control ring includes a second controller 6, switch 7, test object 8, additional switch 9, and a calibrated signal detector 11.

As in an automatic control system, the levels of control voltages generated in each control ring and measured using level 13 meters and the first additional level meter are proportional to the voltage levels of two interference generators of the calibrated signal generator 3. Thus, the inputs of comparator 14 fed signals proportional to the calibrated level and levels signal Uq interference signal generators 10 · ^chgo graduated scale allows the second additional level meter 16 directly in units relationship Unt 2 / ΐίς> for example in dB. ''

During measurements, it is necessary to establish the levels of the generator of the calibration signal and the equal levels of the generators of interference, which are obviously large, which are required when measuring the dynamic range in a known scheme, since they will be reduced to the required value by AGC systems.

The advantage of the proposed device over the known one is that it reduces the measurement time by 10-15 times.

Claims (1)

The invention relates to electrical measurement techniques and can be used for measuring apparatus of radio receivers. A device for measuring the dynamic modulation range "a by intermodulation" is known, which contains the first and second-hand noise generators, the outputs of the LEX; connected, respectively, with the first and second inputs of the adder, the generator of the calibration signal, the switch, the output of which is connected to the input of the test object, and a level meter. However, the known device requires manual calibration of the gain of the measuring circuit and the establishment of identical signal levels of the noise generators, and, consequently, a longer measurement time. The purpose of the invention is to reduce measurement times. This goal is achieved by the fact that the device for measuring the dynamic range of. mutual modulation, containing the first and second interference generators, the outputs of which are connected respectively to the first: and second inputs of the adder, the generator p of the calibration signal, the switches, the output of which is connected to the input of the test object, and the level meter, are entered first and second level tori, the serially connected detector of a calibrated signal and the first additional level meter, serially connected chroniser, additional switch, detector. A combination signal, a comparator and a second additional level meter, the output of the adder through the first level regulator connected to the first input of the switch, the second input of which through the second level regulator is connected to the input of the calibrated signal generator, and the second input of the additional switch, the first and the second inputs of which are connected respectively to the third input of the switch and to the output of the test object are connected to the detector input of a calibrated signal, the output of which 382 is connected to the second input second regularity. l mountain level and the second input of the comparator, the first input of which is combined with the second input of the first level regulator and the input of the level meter. The drawing shows a structural electrical circuit of the device. The device contains the first generator 1 interference, the second generator 2 interference, generator 3 of the calibrated signal, summat 4, the first level 5 controller, the second controller 6. level, switch 7, test object 8, additional switch 9, combination signal detector 10, detector 11 calibrated signal, chronizer 12, level meter 13, comparator 14, first additional level meter 15 and additional level meter 16. The device works as follows. To the input of the test object 8, alternately, using the switch 7, are connected via the first and second controllers 5 and 6 of the level, the output of the adder 4 --.-. the first and second generators 1 and 2 noise and the output of the generator 3 calibration signal. When the first and second generators 1 and 2 of interference are connected to the input of object B of the test, the detector of the combining signal and the generating control signal for the first regulator 5 are connected to the input of the object 8 of the test using the additional switch 9. When the input of the object 8 of the test is connected generator 3 of the calibrated signal, then the detector of the calibrated signal 11 is connected to its output by means of the additional switch 9, an input control signal for the second controller 6. Thus, ; The proposed device operates (with time division) two independent automatic adjustments. One of them maintains the value of the combinational noise at a given nominal level, and the other, the magnitude of the calibrated signal. The first adjustment ring includes the first controller 5, the switch 7, the test object 8, the additional switch 9, and the detector of the Raman signal. The second adjustment ring includes the second controller 6, the switch 7, the test object 8, the additional switch 9, and the detector 11 of the calibrated signal. As in the automatic control system, the levels of control voltages, which were tuned to each control ring 8 and measured with a level 13 gauge and the first Additional level gauge, are proportional to the voltage levels of two calibrated signal generator 3. Thus, the inputs of the comparator 14 are given signals proportional to the level of the calibrated signal Ug and the signal levels of the noise generators ft 1.7, allowing the second additional meter 16 to be calibrated directly in units of the ratio n4.5 / Uc, for example, in decibels. When measuring, the generator levels of the calibration signal should be set to equal levels of interference generators with obviously large ones that are required when measuring the dynamic range B: a known scheme, since they will be reduced to the required value by the AGC systems. The advantage of the proposed device over the known is to reduce the measurement time in 1O-15 times. DETAILED DESCRIPTION OF THE INVENTION A device for measuring the dynamic range by mutual modulation, comprising first and second interference generators, whose inputs are connected to the first and second inputs of the adder, a calibrated signal generator, a switch, which is connected to the input of the test object, and a level meter characterized by that, in order to reduce the measurement time, the first and second level controllers are introduced, the calibrated signal detector connected in series and the first additional meter level and series-connected chronizer, additional switch, combinational signal detector, comparatory second additional level meter, while the adder's input through the first level controller is connected to the first input of the commutator, the second input of which is connected signal, and the second output of the additional switch, the first and second inputs of which are connected respectively to the third input of KOMNtyTaTopa and to the output of the test object, is connected to the input of The vector of the calibrated signal, the output of which 5S244 is connected to the second input of the second level regulator and the second input of the comparator, the first input of which is combined with. the second input of the first level regulator and the input of the level meter. 56 Sources of information taken into account during the examination 1. Golubev V.N. Frequency selectivity of radio receivers of AM signals. M., Svy, 197O, p. 185-187 (prototype).