SU1150584A2 - Device for measuring radio receiver real sensitivity - Google Patents

Abstract

G. INSTRUMENT FOR MEASURING THE REAL SENSITIVITY OF RADIO RECEIVERS on author.St. No. 1068842, characterized in that, in order to improve measurement accuracy, an additional element of a differential voltage signal memory, a differential noise noise voltage memory, two keys and a control unit are added, with the first key and the memory element sequentially connected These differential voltage signals are set between the output of the automatic voltage setting unit and the voltage level setting input of a high-frequency modulated oscillator, in series with a key and an element A difference noise voltage memory is installed between the output of the automatic noise voltage setting unit and the control input of the attenuator, the first output of the control unit is connected to the control inputs of the first key and the high-frequency modulated oscillator according to the circuit with automatic shutdown (on) modulation mode, the second output of the control unit is connected to the control input of the second key, the third output of the control unit is connected to the second input of the data processing system, you olnennogo with additional input, and a broadband rejection filter formed with the suppression of low frequency components promsh lennoy AC. 2. The device according to claim 1, ex (the unit that controls: made in the form of a clock pulse generator, the input of which is connected to the input terminal of the Start device, and the output - to the input of the series-connected counter, decoder and trigger, the first output Ate which was connected to the first output of the control unit and to the input of the decoder clock, the output of the latter connected to the third output of the control unit and to the control input of the clock generator, the second output of the trigger connected to the second output of the control unit.

Description

The invention relates to a measurement technique and can be used to measure the real sensitivity of radar receivers in automated control systems. According to the main author. St. No. 1068842, a device for measuring the real sensitivity of radio receivers is known, which contains a high-frequency modulated oscillator, a voltage level setting input which is connected to an output of a unit for automatically setting a signal voltage and a dink processing system, and an output of a high-frequency modulated oscillator connected to an output the device terminal, the input terminal of which through a controlled attenuator is connected to the inputs of the selective and barrier filters, the output of the latter through series-connected noise voltage converter and automatic voltage setting unit; noise is connected to the control input of the controlled attenuator, and the output of the selective filter is connected to the input of the automatic voltage setting unit L. The disadvantage of this device is low measurement accuracy due to errors in shaping the specified noise level in the measurement mode with modulated high-frequency oscillation. The purpose of the invention is to improve the measurement accuracy of the real sensitivity of radio receivers. The goal is achieved by the fact that a device for measuring the real sensitivity of radio receivers is additionally introduced a slot. -1 .Tif of a differential voltage signal a differential memory element 11umae two keys and a control unit, with an atom connected in series the first key and the difference memory element signal voltage is set between the output of the automatic voltage setting block and the voltage level setting input of the high-frequency modulated oscillator; gslyuch connected the second memory element and times bone voltage noise installed between the output of the automatic setting unit voltage noise and controls conductive th input of said attenuator. The first output of the control unit is connected to the control inputs of the first key and the high-frequency modulated oscillator according to the circuit with automatic disconnection (switching on) of the modulation mode. The second output of the control unit is connected to the control unit (Regulator input of the second key j the third output of the control unit is connected to the second input data processing system, made with an additional input, and the barrier filter is made of broadband and with the suppression of the low-frequency components of the industrial network Moreover, the control unit is designed as a clock pulse generator, whose input is connected to the input terminal of the Start device, and the output is connected to the input of a series-connected counter, decoder and trigger, the first output of which is connected to the first output of the control unit and clock decoder, the output of the latter is connected to the third output of the control unit and the control input of the clock pulse generator, the second output of the trigger is connected to the second output of the control unit. The drawing shows a block diagram of the deviceJ The device contains a radio receiver 1. Control attenuator 2, an output filter 3j connected to the input of the automatic voltage setting unit 4, which includes a comparison unit 5 to the reference signal source b, the first key 7, a high-frequency generator 8 modulated oscillations, including sequentially connecting a generator 9 low-frequency oscillations, a switch 10 and a high-frequency generator 11, a converter 12 of noise voltage , block 13 automatic installation of voltage noise; including serially connected comparison Qnof 1A and source 15 of reference voltage of a unit of noise difference voltage memory 16, control unit 17 of control 2 including sequentially connected generator 18 clock ICs, a counter 19, a decoder 20, a trigger 21, and a decoder 22 clock outputs connected to the control input of the generator 18 clock pulses and the second input of the data processing system 23, the first input of which is connected to the output of the differential voltage memory element 24, the second switch 25, block A filter 26 is made wide-band and the input 27 and output 28 of the device. The device works as follows. Prior to measurement, the volume control of the monitored radio receiver 1 is set to the position corresponding to the maximum volume, and the transfer ratio of the attenuator 2 is set to one by the signal from the output of the memory element 16 of the differential noise voltage. In the first cycle of operation of the device on the signal, the first key 7 and the switch 10 are closed. The modulated high-frequency oscillation is fed from the output of the Generator 8 to the antenna input of the radio receiver 1. The magnitude of this voltage depends on the voltage coming from the output of the block 24 to the input of the generator level setting 11. The voltage of the modulating frequency and noise from the output of the radio receiver 1 is fed through the attenuator 2 to the input of the bandpass filter 3, which passes to the input of the comparison unit 5 only the voltage of the modulating frequency. In block 5, the voltage of the modulating frequency is converted into a constant voltage, and then compared to the voltage of the source 6 of the reference signal corresponding to a given output voltage of the radio receiver 1, at the output of the attenuator 2 The voltage corresponding to the voltage difference of the reference and monitored signals from the output of the comparator unit is fed through the closed key 7 and the memory element 24 to the input of the voltage level setting of the high-frequency generator 11, the output voltage of the high-frequency generator 11 changes, - its output voltage until the output voltage of the radio pitch 1 to the output voltage of the attenuator ustanovits 2 is not equal to the target value. After the end of the first cycle, §5 problem

Bots The device starts the first cycle of the device operation based on the noise. With this key 7 and switch 10

2, after the first cycle of operation of the device, the noise is reduced, the voltage at the output of the radio receiver 1 and 84 is opened, and the key 25 is closed. The unmodulated high-frequency voltage from the output of the generator 11, corresponding to the voltage level established at the end of the first clock cycle and stored on the memory element 24, is fed to the input of the radio receiver 1. The noise voltage from the output of the attenuator 2 is fed to the filter 26, which suppresses noise spectrum low frequency components (background of alternating current in mains powered receivers) In converter 12, the noise voltage of the latter is converted into a DC voltage, which is compared in block 14 with voltage comparison reference noise source 15 corresponding to a predetermined output voltage of the gum of radio receiver 1 at the output of attenuator 2. The voltage corresponding to the difference in voltage of the reference and controlled noise from the output of the comparison unit 14 through the closed key 25 and the memory element 16 is fed to the attenuator control input 2. If, with an initial attenuator transfer ratio of 2, equal to one, the noise voltage at its output is less than or equal to the specified value. then the attenuation coefficient of the attenuator 2 does not change and then the real sensitivity of the radio receiver 1 coincides with its maximum sensitivity. If, however, the voltage at the beginning of the noise cycle is greater than the specified one, then the comparison unit 14 will output the control voltage to the 1st input of the attenuator 2, until the attenuator transfer ratio 2 decreases to such a value (smaller unit) at which the output Attenuator 2 will set a predetermined noise voltage. When switching to the second cycle of operation of the device, the key 25 is opened by a signal, and the key 7 and the switches 10 are closed. In this case, the signal from the output of the memory element 16 ensures the preservation of the value of the transfer coefficient of the attenuator 2 obtained in the first cycle of the device operation in terms of noise. Since the coefficient of the radio receiver 1 and the attenuator

attenuator 2 becomes less than specified. In this case, the comparison unit 5, as in the first operation cycle of the device according to the signal, acting on the control input of the generator 11 through the closed key 7 and the memory element 24 changes the level of the output modulated high-frequency oscillation of the generator 11 so that the output voltage The life of the radio receiver 1 at the output of the attenuator 2 was set equal to the specified value.

The obtained value of the high-frequency voltage of the generator 11 on the second cycle of the device operation according to the signal is used to refine the required value of the noise level in the second cycle of the device operation by noise. In this case, the comparison unit 14, as in the first cycle of operation of the device based on noise, acts on the control input of the attenuator 2 via the closed key 25 and the memory element 16 changes the transfer coefficient of the attenuator 2 until its output is set specified noise level.

The process of alternate installation at the output of the radio receiver 1 and the attenuator 2 of a predetermined signal voltage and noise is convergent, i.e. leads to a state in which the next switching on of the operation cycle (Devices by signal does not change established at the end of the previous operation cycle of the device by a voltage signal at the output of attenuator 2, just as the regular operation time of the device for noise does not change established at the output of attenuator 2 is the voltage at the end of the previous device operation cycle for noise.

Almost enough four cycles of operation of the device for the signal and three cycles of operation of the device for noise.

Switching the device operation cycles by signal and noise is performed

control block 17. The generator 1I of clock pulses entering into it on the command of Start-up begins to generate pulses with a period t. Counter 19 with decoder 20 form the duration of each clock cycle of the rat signal, and each clock cycle of noise nt, where w and n are integers. The durations of the signal cycles and DtyMa are determined based on the transition time of setting the specified signal voltages and noise at the output of attenuator 2. In an experimental verification of the device, the period t is equal to 100 ms, the duration of the first and second signal cycles and noise are 2 t each, the duration of the third cycles of signal and noise are 3 t, i.e. the total installation time of a given signal-to-noise ratio at the output of attenuator 2 is 1.4 s.

The control inputs of the switch 7 and the switch 10 are connected to the output of the flip-flop 21, and the control input of the switch 25 is connected to the anti-phase output of the flip-flop 21. The state of the flip-flop 21 is changed by the decoder 20.

The required number of clock ticks is specified in the decoder 22 clock cycles. With the last cycle of the device, the decoder 22 generates 18 clock pulses to the generator, and a signal to start the measuring device to the data processing system 23. The generator 18 stops the generation of pulses. In the data processing system 23, the voltage value corresponding to the high-frequency voltage at the antenna input of the radio receiver 1, i.e. a signal is recorded that characterizes the real sensitivity of the monitored radio receiver.

The present invention provides an increase in the measurement accuracy of the real sensitivity of radio receivers by 20% at a measurement time at a single controlled frequency of about 2 s.

Claims (2)

1. DEVICE FOR MEASURING REAL SENSITIVITY OF RADIO RECEIVERS according to ed. No. 1068842, characterized in that, in order to increase the accuracy of measurements, a differential voltage memory element, a noise differential voltage memory element, two keys and a control unit are additionally inserted into it, while the first key and the differential voltage memory memory element · are installed in series the output of the automatic signal voltage setting unit and the input of setting the voltage level of a high-frequency modulated oscillator, a second key and a memory element connected in series The noise differential voltage elements are installed between the output of the unit for automatically setting the noise voltage and the control input of the attenuator, the first output of the control unit is connected to the control inputs of the first key and the high-frequency modulated oscillator, made according to the scheme with automatic shutdown (inclusion) of the modulation mode, the second output of the block control is connected to the control input of the second key, the third output of the control unit is connected to the second input of the data processing system, made with an additional input, and the barrier filter is made broadband with the suppression of low-frequency components of an industrial AC network. 2. The device according to claim 1, characterized in that the control unit is made in the form of a clock generator, the input of which is connected to the input terminal of the Start device, and the output is connected to the input of the counter, decoder and trigger connected in series, the first output of which is connected to the first the output of the control unit and with the input of the clock decoder, the output of the latter is connected to the third output of the control unit and the control input of the clock generator, the second output of the trigger is connected to the second output of the control unit. _n ”SU ,, 1150584 f