SU1000935A2 - Device for measuring radio receiver channel sensitivity and frequency selectivity to carrier frequency side components - Google Patents

Description

the connected transducer and frequency discriminator are connected to the Schmitt trigger input and to the second control-input of the signal generator, the third control input of which is connected to the output of the first shaper pulse generator, and the second input of the reference voltage source is connected to the second input of the reference voltage source The output of the Schmitt trigger is connected to the control inputs of the modulator, the indicator, the first statistical three | Hera and the meter, the input of which is connected to the output of the signal generator .Ij. A disadvantage of this device is the inability to automatically control the norms for sensitivity through side channels of reception of radio electronic means. The purpose of the invention is the expansion of the functional capabilities of the device by simultaneous automatic measurement of sensitivity, frequency selectivity, and control of standards for sensitivity by side reception channels. The goal is achieved by the fact that a second electronic key and a second unit connected in series are entered into a device for measuring the sensitivity and frequency selection of a network of radio reception channels to the side components of the carrier frequency, the second amplitude comparator, the third needle pulse generator and the second indicator, the control input of the latter is connected to the control input of the first indicator, one of the inputs of the second electronic key is connected to the output of the input terminal The former of the sharpened pulse generator, and the output to the second input of the second amplitude comparator, the signal output of the first indicator connected to the second input of the second electronic key. The drawing shows the structural scheme of the proposed device. The device contains an I signal generator, modulator 2, radio receiving electronic means 3, the first amp comparator 4, the first block 5 for comparing level, the first 6,1 and the second 6,2 switches, the first inducer 7, the first 8,1 and the second 8 , 2 pointed pulse impulses for the first 9D and second 9.2 binary stats of the tertreter, source U of the reference, voltage, first electronic switch 11, amplifier-converter 12, frequency discriminator-amplifier 13, trigger 14 of Schmitt, frequency 15, contact button 16, the second electroclinic 17 h, a second block 18 for generating level calibration of the second amplitude comparator 19, a third driver 20, the needle pulses, .vtoroy indicator 21, the transmitting and receiving antennas 22 and 23 and output terminals 24 and 25 of the device. The device works as follows. The frequency of signal generator 1 is set to the lower limit of the measuring range. The input of the radio electronic means 3 is supplied with a level X signal. At the initial moment of time, the second binary static trigger 9.2 is in the initial state 10 In this case, the output voltage UO is outputted to the third control input of the I signal generator. From the source of the reference voltage U, the closure of the contact button 16 is applied to the second input of the second binary static trigger 9.2, the voltage U / 2, which transfers it to the Ol position. The output of the second binary static trigger -9.2 produces a voltage U, which There is a smooth change in the frequency of the generator of the I signal in the measured frequency range V – i. When the frequency of the oscillator 1 coincides with the bandwidth of the first side reception channel at the input of the amplitude comparator 4, a positive signal is generated, arriving at the inputs of the first generator 8.1 of the pointed pulses and the amplifier converter 12. At the input of the generator of 8.1 pointed pulses a pulse of a pointed shape is formed (J j, which translates the second binary static trigger 9.2 into the initial state ω). At this, the voltage at its output becomes equal to 0 and the frequency of the generator is changed. Further sub-tuning the frequency of the signal generator 1 to the resonant frequency of the secondary reception channel is produced by the voltage from the output of the frequency discriminator-amplifier 13, which is fed to the second control input of the generator 1. When the signal of the generator 1 coincides with the resonant frequency of the first secondary reception channel, the voltage O 4 at the entrance of the discriminator- vcileIl 13 will stop equal to 0, which translates the trigger 14 Shigg to its original position. The output of the latter produces a voltage DS g which switches on the modulator 2, and the indicator 7 and the frequency meter 15 switches to the measurement mode. The first binary static trigger 9.1 returns to the state 10. The electronic key II connects the constant source 1O To the indicator 7, the resonant frequency of the side receiving channel is measured by a frequency meter 15. With the help of the modulator 2, the amplitude X of the signal begins to increase according to the sawtooth law with a period TO. When the signal level Y, F; j 45 is reached, the side channel of reception at the output of rational electronic means 3 generates a signal Y, which in the amplitude comparator 4 is compared with the level of comparing YO and is fed to the first shaper 8.1 of the pulse pulses as the difference YF Y - YO. At its output a pulse U j is produced, which. translates the first 9.1 and second 9.2 binary i static triggers from state 10 to 01. Electronic key II disconnects source U, it is possible to know voltage from indicator 7. When the maximum value of the modulating signal X at the output of the second driver 8 is reached, 2 pointed pulses pulse U, which transfers the first binary static trigger 9.1 to state Yu and connects the indicator 7 to the amplitude comparator 19 via the electronic key 17, sets the output level one signal j, equal to the established rate on the sensitivity of radio-electronic means. reception channels. If DK. At the output of the imaging device 2O of acute-pulsed pulses, a voltage UT is generated, including a display of the indicator 21 Not normal Voltage U; | About the output of the second binary static trigger 9.2 starts further

frequency tuning generator 1 signal. At the same time, at the output of the discriminator-amplifier 13, the voltage U o was absorbed and the Schmktt trigger 14 was switched to the O1 position. The modulator 2 is turned on, the indicator 7 and 21 and the frequency meter 15 are reset, and the first binary static trigger 9.1 is switched to the U state, and so on.

Claims (1)

Invention Formula A device for measuring the sensitivity and frequency selectivity of the channels of a radio receiver to the side components of the carrier frequency according to the author. St. No. 892356, characterized in that, in order to expand the functional capabilities of the device by simultaneously automatically measuring the sensitivity, frequency frequency of the radio receiver channels to the side components of the carrier frequency and monitoring the sensitivity standards for side channels, a second electronic key is inserted into it and connected in series the second block for generating the comparing level, the second amplitude comparator, the third shaper of the pulse, and the second indicator. At the same time, the control input of the latter is connected to the control input of the first indicator, one of the inputs of the second electronic key is connected to the output of the second shaper pulse generator, and the output is connected to the second input of the second amplitude comparator, the signal output of the first indicator is connected to the second input of the second electronic key. Sources of information taken into account in the examination I. USSR Author's Certificate No. 892356, class, Cf 01 R 29/26, 2l.lO.8O (prototype).